Analog & Interface Product Selector Guide · Analog & Interface Product Selector Guide 3...
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Analog & Interface Product Selector Guide Thermal Management • Motor Driver • Interface Peripherals Power Management • Linear & Mixed Signal • Safety & Security Analog & Interface Products www.microchip.com/analog
Transcript of Analog & Interface Product Selector Guide · Analog & Interface Product Selector Guide 3...
Analog & Interface Product Selector GuideThermal Management • Motor Driver • Interface Peripherals Power Management • Linear & Mixed Signal • Safety & Security
Analog & Interface Products
www.microchip.com/analog
2 Analog & Interface Product Selector Guide
Table of Contents
Thermal ManagementTemperature Sensors . . . . . . . . . . . . . . . . . . . . . 4
Logic Output Temperature Sensors . . . . . . . . . 4Voltage Output Temperature Sensors . . . . . . . . 4Serial Output Temperature Sensors . . . . . . . . . 4Serial Output Temperature Sensors with Remote Diode Monitors . . . . . . . . . . . . . . . . . 5
Open Loop Fan Controllers and Fan Fault Detectors . . . . . . . . . . . . . . . . . . . 6Closed Loop Fan Controllers with SMBus/I2C™ Interface . . . . . . . . . . . . . . . . . 6
Motor DriversStepper Motors, DC Motors and 3-Phase BLDC Motors . . . . . . . . . . . . . . . . . . . . . . .7
Power ManagementVoltage References . . . . . . . . . . . . . . . . . . . . . . 7Linear Regulators
50–250 mA LDO Linear Regulators . . . . . . . . . 8300 mA LDO Linear Regulators . . . . . . . . . . . . 9500–800 mA LDO Linear Regulators . . . . . . . . 91A and > LDO Linear Regulators . . . . . . . . . . 10Application Specific LDO Linear Regulators . . 10
LDO Regulator Combination Products . . . . . . . . . 10Switching Regulators . . . . . . . . . . . . . . . . . . . . 10Switching Regulators Combination Products . . . . 11PWM Controllers . . . . . . . . . . . . . . . . . . . . . . . 11Charge Pump DC-to-DC Converters . . . . . . . . . . 12
Inverting or Doubling Charge Pumps . . . . . . . 12Inverting and Doubling Charge Pumps . . . . . . 12Regulated Charge Pumps . . . . . . . . . . . . . . . 12
CPU/System Supervisors . . . . . . . . . . . . . . . . . 12Voltage Detectors . . . . . . . . . . . . . . . . . . . . . . . 13Power MOSFET Drivers . . . . . . . . . . . . . . . . . . . 13
Low-Side Drivers, 0 .5A to 1 .2A Peak Output Current . . . . . . . . . . . . . . . . . . . . . . . 13Low-Side Drivers, 1 .5A Peak Output Current . . 14Low-Side Drivers, 2 .0A to 12 .0A Peak Output Current . . . . . . . . . . . . . . . . . . . . . . . 14High-Side/Low-Side Drivers . . . . . . . . . . . . . . 15Synchronous Buck High-Side Drivers . . . . . . . 15
Power MOSFETs . . . . . . . . . . . . . . . . . . . . . . . . 15Battery Chargers . . . . . . . . . . . . . . . . . . . . . . . 15Hot Swap Controllers . . . . . . . . . . . . . . . . . . . . 16
LinearOp Amps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16Zero-Drift Operational Amplifiers . . . . . . . . . . . . 20Programmable Gain Amplifiers (PGA) . . . . . . . . . 20Selectable Gain Amplifiers (SGA) . . . . . . . . . . . . 20Instrumentation Amplifiers . . . . . . . . . . . . . . . . 20Comparators . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Mixed SignalSuccessive Approximation Register (SAR) A/D Converters . . . . . . . . . . . . . . . . . . . . . . . . 21Delta-Sigma A/D Converters . . . . . . . . . . . . . . . 22Energy Measurement ICs . . . . . . . . . . . . . . . . . 22Current/DC Power Measurement ICs . . . . . . . . . 22Dual-Slope A/D Converters . . . . . . . . . . . . . . . . 23Binary and BCD A/D Converters . . . . . . . . . . . . 23Display A/D Converters . . . . . . . . . . . . . . . . . . 23Digital Potentiometers . . . . . . . . . . . . . . . . . . . 24Frequency-to-Voltage/Voltage-to-Frequency Converters . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25D/A Converters . . . . . . . . . . . . . . . . . . . . . . . . 26
InterfaceController Area Network (CAN) Products . . . . . . . 26Infrared Products . . . . . . . . . . . . . . . . . . . . . . . 27Ethernet Products . . . . . . . . . . . . . . . . . . . . . . 27Passive Access Products . . . . . . . . . . . . . . . . . 27LIN Transceiver Products . . . . . . . . . . . . . . . . . . 27Serial Peripherals . . . . . . . . . . . . . . . . . . . . . . . 28IEEE 802 .11™ Modules . . . . . . . . . . . . . . . . . . 28Bluetooth Modules . . . . . . . . . . . . . . . . . . . . . . 28IEEE 802 .15 .4 ZigBee® RF Transceiver Products . 29Sub-GHz Tranceivers . . . . . . . . . . . . . . . . . . . . . 29Sub-GHz Transmitters . . . . . . . . . . . . . . . . . . . . 29USB Products . . . . . . . . . . . . . . . . . . . . . . . . . . 29USB Port Power Controllers with Change Emulation . . . . . . . . . . . . . . . . . . . 29
Safety & SecurityPhotoelectric Smoke Detector ICs . . . . . . . . . . . 30Ionization Smoke Detector ICs . . . . . . . . . . . . . . 30Ionization Smoke Detector Front Ends . . . . . . . . 30Piezoelectric Horn Drivers . . . . . . . . . . . . . . . . . 31
Part Number DesignationsAnalog Products with “TC”, “MCP”, “RE46C”, “UCS”, “PAC” and “EMC” Prefixes . . . . . . . . . . . 32
Analog Design and Development ToolsThermal Management . . . . . . . . . . . . . . . . . . . . 37Mixed Signal . . . . . . . . . . . . . . . . . . . . . . . . . . 37Power Management . . . . . . . . . . . . . . . . . . . . . 39Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40Linear . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41Analog Blank Evaluation Boards . . . . . . . . . . . . 41Miscellaneous Analog Demonstration and Evaluation Tools . . . . . . . . . . . . . . . . . . . . . 41
Featured Analog Development ToolsThermal Management . . . . . . . . . . . . . . . . . . . . 42Mixed Signal . . . . . . . . . . . . . . . . . . . . . . . . . . 42Power Management . . . . . . . . . . . . . . . . . . . . . 42Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43Linear . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
3Analog & Interface Product Selector Guide
Microchip’s integrated analog technology, peripherals and features are engineered to meet today’s demanding design requirements . Our broad spectrum of analog products addresses thermal management, power management, battery management, mixed-signal, linear, interface and safety & security solutions . Combined with “Intelligent Analog” microcontrollers, Microchip offers an extensive analog portfolio for thousands of high-performance design applications in the automotive, communications (wireless), consumer, computing and industrial control markets .
Our broad portfolio of stand-alone analog and interface devices offers highly integrated solutions that combine various analog functions in space-saving packages and support a variety of bus interfaces . Many of these devices support functionality that enhances the analog features currently available on PIC®microcontrollers .
Want a Business Partner, Not Just a Vendor?Successful companies recognize the value of a strategic supplier relationship to help them deliver innovative products to their markets in a timely manner . They trust their suppliers to furnish quality components for current design opportunities as well as provide technology road maps and innovative solutions to stay ahead of tomorrow’s design trends .
Microchip Technology provides low-risk product development, lower total system cost and faster time to market to more than 45,000 of these successful companies worldwide . Headquartered in Chandler, Arizona, Microchip offers outstanding technical support along with dependable delivery and quality .
Founded in 1989, Microchip’s business model is based on a series of guiding values that aim to establish successful customer partnerships by exceeding expectations for products, services and attitude . Continuous improvement, technology innovation and the pursuit of the highest quality possible drive Microchip’s company culture .
The result is a worldwide organization dedicated to delivering whole product solutions which include high performance silicon devices, easy-to-use development tools, outstanding technical support and sophisticated technical documentation .
Are Quality and Delivery a Concern?Microchip’s quality systems are certified according to the International Organization for Standards/Technical Specification (ISO/TS)-16949:2002 requirements . This demonstrates that the Company’s quality systems meet the most stringent industry quality-management system standards, resulting in high-quality semiconductor products .
Are You Looking for Complete Analog & Interface Design Solutions?
Microchip Technology’s Stand-Alone Analog & Interface Portfolio
PowerManagement
LDO & SwitchingRegulators
Charge PumpDC/DC Converters
Power MOSFETDrivers
PWM Controllers
System Supervisors
Voltage Detectors
Voltage References
Li-Ion/Li-PolymerBattery Chargers
Mixed-Signal
A/D ConverterFamilies
Digital Potentiometers
D/A Converters
V/F and F/VConverters
EnergyMeasurementICs
Current/DCPower ICs
Interface
CAN Peripherals
InfraredPeripherals
LIN Transceivers
Serial Peripherals
Ethernet Controllers
USB Peripheral
USB Port PowerControllers
Linear
Op Amps
InstrumentationAmps
ProgrammableGain Amplifiers
Comparators
Safety & Security
PhotoelectricSmoke Detectors
Ionization SmokeDetectors
Ionization SmokeDetector Front Ends
PiezoelectricHorn Drivers
Thermal Management
TemperatureSensors
Fan SpeedControllers/Fan FaultDetectors
Motor Drive
Stepper and DC
3Ф BrushlessDC Motor Driver
Direct control over manufacturing resources allows shortened design and production cycles . By owning the wafer fabrication facilities and the majority of the test and assembly operations, and by employing proprietary statistical process control techniques, Microchip has been able to achieve and maintain high production yields .
Need Additional Support and Resources?Microchip is committed to supporting its customers byhelping design engineers develop products faster and more efficiently . Customers can access three main service areas at www .microchip .com . The Support area provides a fast way to get questions answered . The Sample area offers evaluation samples of any Microchip device . microchipDIRECT provides 24-hour pricing, ordering, inventory and credit for convenient purchasing of all Microchip devices and development tools . This site also features online programming capabilities . Finally, the Training area offers opportunities to expand your knowledge with Microchip’s online web seminars and hands-on courses at our worldwide Technical Training Centers . Our seminars and training classes are designed to fit your schedule and offer an overview of many product, development tool and application topics . Visit www .microchip .com/training for class content and schedules .
Have you ever encountered a technical dilemma at a critical point in your design development and your supplier was not available to answer your questions? Microchip’s first ever 24/7 global technical support line brings technical support resources any time help is needed . Because some technical problems require hands-on assistance in order to be resolved quickly, Microchip has also developed a global team of field applications engineers and field sales engineers for local assistance .
4 Analog & Interface Product Selector Guide
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ial o
utpu
t te
mpe
ratu
re s
enso
r w
ith in
tegr
ated
EEP
RO
M8-p
in T
SS
OP,
8-p
in 2
× 3
DFN
, 8-p
in 2
× 3
TD
FN
MC
P98
24
4±1
±3
−4
0 t
o +
12
5+1.7
to
+3.6
500
Ser
ial o
utpu
t te
mpe
ratu
re s
enso
r w
ith in
tegr
ated
EEP
RO
M8-p
in 2
× 3
TD
FN
not
e 1
: Th
ese
devi
ces
use
an e
xter
nal t
empe
ratu
re s
enso
r. Ac
cura
cy o
f th
e to
tal s
olut
ion
is a
fun
ctio
n of
the
acc
urac
y of
the
ext
erna
l sen
sor.
2:
Max
imum
acc
urac
y m
easu
red
at 8
5°C
.
5Analog & Interface Product Selector Guide
ser
ial o
utpu
t Te
mpe
ratu
re s
enso
rs (
con
tinue
d)
Par
t #
Typi
cal
acc
urac
y (°
c)
max
imum
a
ccur
acy
@ 2
5°
c (
°c)
max
imum
Te
mpe
ratu
re
ran
ge (
°c)
Vcc
ran
ge
(V)
max
imum
sup
ply
cur
rent
(µa
)Fe
atur
esPac
kage
s
TC77
±0
.5±
1−
55
to
+1
25
+2.7
to
+5.5
400
SPI
com
patib
le in
terf
ace,
0.0
625°C
tem
pera
ture
res
olut
ion
5-p
in S
OT-
23A,
8-p
in S
OIC
TC72
±0
.5±
1−
55
to
+1
25
+2.6
5 t
o +5.5
400
SPI
com
patib
le in
terf
ace,
Pow
er-s
avin
g on
e-sh
ot t
empe
ratu
re m
easu
rem
ent,
0.2
5°C
te
mpe
ratu
re r
esol
utio
n8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
TC74
±0
.5±
2−
40
to
+1
25
+2.7
to
+5.5
350
SM
bus/
I2C
com
patib
le in
terf
ace,
1°C
tem
pera
ture
res
olut
ion
5-p
in S
OT-
23A,
5-p
in T
O-2
20
TCN
75
A±
0.5
±2
−4
0 t
o +
12
5+2.7
to
+5.5
500
SM
bus/
I2C
com
patib
le in
terf
ace,
pow
er-s
avin
g on
e-sh
ot t
empe
ratu
re m
easu
rem
ent,
m
ulti-
drop
cap
abili
ty, 0.0
625°C
to
0.5
°C a
djus
tabl
e te
mpe
ratu
re r
esol
utio
n8-p
in M
SO
P, 8
-pin
SO
IC
TCN
75
±0
.5±
2−
55
to
+1
25
+2.7
to
+5.5
1,0
00
(3)
SM
bus/
I2C
com
patib
le in
terf
ace,
mul
ti-dr
op c
apab
ility
, in
terr
upt
outp
ut,
0.5
°C
tem
pera
ture
res
olut
ion
8-p
in M
SO
P, 8
-pin
SO
IC
EMC
10
01
±0
.5±
1.5
−2
5 t
o +
12
53.0
–3.6
50
1.5
°C S
MB
ux/I
2C
Am
bien
t w
ith 2
Ale
rts
6-p
in S
OT
ser
ial o
utpu
t Te
mpe
ratu
re s
enso
rs w
ith r
emot
e d
iode
mon
itors
Par
t #
# o
f r
emot
e Te
mp.
sen
sors
Typi
cal
acc
urac
y (°
c)
max
imum
a
ccur
acy
@ 2
5°
c (
°c)
max
imum
Te
mpe
ratu
re
ran
ge (
°c)
am
bien
t Te
mp.
sen
sor
ale
rt/
Ther
mh
ardw
are
shu
tdow
nVc
c r
ange
(V
)
Typi
cal
sup
ply
cur
rent
(µa
)d
escr
iptio
n an
d a
dditi
onal
Fea
ture
sPac
kage
s
EMC
10
33
2±
1.0
±3
−4
0 t
o +
125
12
–3.0
–3.6
50
Trip
le S
MB
us/I
2C
™ S
enso
r w
ith R
esis
tanc
e Er
ror
Cor
rect
ion
8-p
in M
SO
P
EMC
10
43
2±
0.5
±1
.0−
40
to
+1
25
1–
–3.0
–3.6
105
Trip
le S
MB
us/I
2C
Sen
sor
with
Res
isita
nce
Erro
r C
orre
ctio
n, B
eta
Com
pens
atio
n an
d H
otte
r of
Tw
o Zo
nes
8-p
in M
SO
P
EMC
10
46
5±
0.2
5±
1.0
−4
0 t
o +
125
1–
–3.0
–3.6
395
Sex
tupl
e S
MB
us/I
2C
Sen
sor
with
Res
isita
nce
Erro
r C
orre
ctio
n,
Bet
a C
ompe
nsat
ion
and
Hot
test
of
Ther
mal
Zon
es10-p
in M
SO
P
EMC
10
47
6±
0.2
5±
1.0
−4
0 t
o +
125
1–
–3.0
–3.6
395
Sep
tupl
e S
MB
us/I
2C
Sen
sor
with
Res
isita
nce
Erro
r C
orre
ctio
n,
Bet
a C
ompe
nsat
ion
and
Hot
test
of
Ther
mal
Zon
es10-p
in M
SO
P
EMC
10
53
2±
0.5
±1
.0−
40
to
+1
25
1–
–3.0
–3.6
105
Trip
le S
MB
us/I
2C
Sen
sor
with
Res
ista
nce
Erro
r C
orre
ctio
n an
d H
otte
r of
Tw
o Zo
nes
8-p
in M
SO
P
EMC
10
63
2±
0.5
±1
.0−
40
to
+1
25
1–
3.0
–3.6
105
Trip
le S
MB
us/I
2C
Sen
sor
with
Hot
ter
of T
wo
Zone
s8-p
in M
SO
P
EMC
10
72
1±
0.2
5±
1.0
−4
0 t
o +
125
12
–3.0
–3.6
430
Dua
l SM
Bus
/I2C
Sen
sor
with
Sel
ecta
ble
Addr
ess
8-p
in M
SO
P
EMC
10
73
2±
0.2
5±
1.0
−4
0 t
o +
125
12
–3.0
–3.6
430
Trip
le S
MB
us/I
2C
Sen
sor
with
Sel
ecta
ble
Addr
ess
10-p
in M
SO
P
EMC
10
74
3±
0.2
5±
1.0
−4
0 t
o +
125
12
–3.0
–3.6
430
Qua
d S
MB
us/I
2C
Sen
sor
with
Sel
ecta
ble
Addr
ess
10-p
in M
SO
P
EMC
14
12
1±
0.2
5±
1.0
−4
0 t
o +
125
12
–3.0
–3.6
430
Dua
l SM
Bus
/I2C
Sen
sor
with
Res
isita
nce
Erro
r C
orre
ctio
n, B
eta
Com
pens
atio
n an
d S
elec
tabl
e Ad
dres
s8-p
in T
DFN
, 8-p
in M
SO
P
EMC
14
13
2±
0.2
5±
1.0
−4
0 t
o +
125
12
–3.0
–3.6
430
Trip
le S
MB
us/I
2C
Sen
sor
with
Res
isita
nce
Erro
r C
orre
ctio
n, B
eta
Com
pens
atio
n an
d S
elec
tabl
e Ad
dres
s10-p
in D
FN,
10-p
in M
SO
P
EMC
14
14
3±
0.2
5±
1.0
−4
0 t
o +
125
12
–3.0
–3.6
430
Qua
d S
MB
us/I
2C
Sen
sor
with
Res
isita
nce
Erro
r C
orre
ctio
n, B
eta
Com
pens
atio
n an
d S
elec
tabl
e Ad
dres
s10-p
in M
SO
P,
10-p
in D
FN
EMC
14
22
1±
0.2
5±
1.0
−4
0 t
o +
125
11
13.0
–3.6
430
Dua
l SM
Bus
/I2C
Sen
sor
with
Res
isita
nce
Erro
r C
orre
ctio
n, B
eta
Com
pens
atio
n an
d R
esis
tor
Set
tabl
e H
ardw
are
Ther
mal
Shu
tdow
n8-p
in M
SO
P
EMC
14
23
2±
0.2
5±
1.0
−4
0 t
o +
125
11
13.0
–3.6
430
Trip
le S
MB
us/I
2C
Sen
sor
with
Res
isita
nce
Erro
r C
orre
ctio
n, B
eta
Com
pens
atio
n an
d R
esis
tor
Set
tabl
e H
ardw
are
Ther
mal
Shu
tdow
n10-p
in M
SO
P
EMC
14
24
3±
0.2
5±
1.0
−4
0 t
o +
125
11
13.0
–3.6
430
Qua
d S
MB
us/I
2C
Sen
sor
with
Res
isita
nce
Erro
r C
orre
ctio
n, B
eta
Com
pens
atio
n an
d R
esis
tor
Set
tabl
e H
ardw
are
Ther
mal
Shu
tdow
n10-p
in M
SO
P
EMC
14
28
7±
0.2
5±
1.0
−4
0 t
o +
125
11
13.0
–3.6
450
Oct
al S
MB
us/I
2C
Sen
sor
Res
isita
nce
Erro
r C
orre
ctio
n, B
eta
Com
pens
atio
n an
d R
esis
tor
Set
tabl
e H
ardw
are
Ther
mal
Shu
tdow
n &
Hot
test
of
Ther
mal
Zon
es16-p
in Q
FN
not
e 1
: Th
ese
devi
ces
use
an e
xter
nal t
empe
ratu
re s
enso
r. Ac
cura
cy o
f th
e to
tal s
olut
ion
is a
fun
ctio
n of
the
acc
urac
y of
the
ext
erna
l sen
sor.
2:
Max
imum
acc
urac
y m
easu
red
at 8
5°C
. 3
: TC
N75 id
le c
urre
nt is
250 m
A. T
his
devi
ce a
lso
has
a S
oftw
are
Shu
tdow
n m
ode
that
red
uces
sup
ply
curr
ent
to <
1 m
A.
6 Analog & Interface Product Selector Guide
Ther
ma
l m
an
ag
emen
T P
ro
du
cTs
: o
pen
loop
Fan
con
trol
lers
and
Fan
Fau
lt d
etec
tors
Par
t #
des
crip
tion
# o
f Te
mp.
m
onito
rs
Typi
cal
acc
urac
y (°
c)
max
imum
a
ccur
acy
@ 2
5°
c (
°c)
max
imum
Te
mpe
ratu
re
ran
ge (
°c)
Vcc
ran
ge
(V)
max
imum
sup
ply
cur
rent
(µa
)Fe
atur
esPac
kage
s
EMC
21
01
Sin
gle
SM
Bus
I2C
™
Fan
Man
ager
2±
0.5
±1
−40 t
o +125
+3.0
to
+3.6
1,0
00
Fan
Con
trol
ler
with
hig
h fr
eque
ncy
PWM
driv
er,
prog
ram
mab
le f
an
spee
d ta
ble
and
aler
t8-p
in M
SO
P, 8
-pin
SO
IC
EMC
23
00
Trip
le S
MB
us I2
C
Fan
Man
ager
3±
0.2
5±
3−0 t
o +70
+3.0
to
+3.6
3,0
00
Fan
Con
trol
ler
with
hig
h fr
eque
ncy
PWM
driv
er,
prog
ram
mab
le f
an
spee
d ta
ble,
vol
tage
mon
itors
, al
ert
16-p
in S
SO
P
EMC
6D
10
3S
Trip
le S
MB
us I2
C
Fan
Man
ager
3±
0.2
5±
3−0 t
o +70
+3.0
to
+3.6
3,0
00
Fan
Con
trol
ler
with
hig
h fr
eque
ncy
PWM
driv
er,
prog
ram
mab
le f
an
spee
d ta
ble,
vol
tage
mon
itors
, al
ert
24-p
in S
SO
P1
TC64
2Fa
n M
anag
er1
Not
e 1
Not
e 1
−40 t
o +85
+3.0
to
+5.5
1,0
00
FanS
ense
™ F
an M
onito
r, M
inim
um f
an s
peed
con
trol
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC64
2B
Fan
Man
ager
1N
ote
1N
ote
1−40 t
o +85
+3.0
to
+5.5
400
FanS
ense
Fan
Mon
itor,
Min
imum
fan
spe
ed c
ontr
ol,
Fan
auto
-rest
art
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC64
6Fa
n M
anag
er1
Not
e 1
Not
e 1
−40 t
o +85
+3.0
to
+5.5
1,0
00
FanS
ense
Fan
Mon
itor,
Aut
o-sh
utdo
wn
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC64
6B
Fan
Man
ager
1N
ote
1N
ote
1−40 t
o +85
+3.0
to
+5.5
400
FanS
ense
Fan
Mon
itor,
Aut
o-sh
utdo
wn,
Fan
aut
o-re
star
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC64
7Fa
n M
anag
er1
Not
e 1
Not
e 1
−40 t
o +85
+3.0
to
+5.5
1,0
00
FanS
ense
Fan
Mon
itor,
Min
imum
fan
spe
ed c
ontr
ol8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC64
7B
Fan
Man
ager
1N
ote
1N
ote
1−40 t
o +85
+3.0
to
+5.5
400
FanS
ense
Fan
Mon
itor,
Min
imum
fan
spe
ed c
ontr
ol,
Fan
auto
-rest
art
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC64
8Fa
n M
anag
er1
Not
e 1
Not
e 1
−40 t
o +85
+3.0
to
+5.5
1,0
00
Ove
rtem
pera
ture
ale
rt, Au
to-s
hutd
own
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC64
8B
Fan
Man
ager
1N
ote
1N
ote
1−40 t
o +85
+3.0
to
+5.5
400
Ove
rtem
pera
ture
ale
rt, Au
to-s
hutd
own,
Fan
aut
o-re
star
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC64
9Fa
n M
anag
er1
Not
e 1
Not
e 1
−40 t
o +85
+3.0
to
+5.5
1,0
00
FanS
ense
Fan
Mon
itor,
Aut
o-sh
utdo
wn
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC64
9B
Fan
Man
ager
1N
ote
1N
ote
1−40 t
o +85
+3.0
to
+5.5
400
FanS
ense
Fan
Mon
itor,
Aut
o-sh
utdo
wn,
Fan
aut
o-re
star
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC65
0Fa
n M
anag
er1
±1
±3
−40 t
o +125
+2.8
to
+5.5
90
Ove
rtem
pera
ture
ale
rt8-p
in M
SO
P
TC65
1Fa
n M
anag
er1
±1
±3
−40 t
o +125
+2.8
to
+5.5
90
Ove
rtem
pera
ture
ale
rt, Au
to-s
hutd
own
8-p
in M
SO
P
TC65
2Fa
n M
anag
er1
±1
±3
−40 t
o +125
+2.8
to
+5.5
90
FanS
ense
Fan
Mon
itor,
Ove
rtem
pera
ture
ale
rt8-p
in M
SO
P
TC65
3Fa
n M
anag
er1
±1
±3
−40 t
o +125
+2.8
to
+5.5
90
FanS
ense
Fan
Mon
itor,
Ove
rtem
pera
ture
ale
rt,
Auto
-shu
tdow
n8-p
in M
SO
P
TC65
4D
ual S
Mbu
s Fa
n M
anag
er1
Not
e 1
Not
e 1
−40 t
o +85
+3.0
to
+5.5
320
FanS
ense
Fan
Mon
itor,
RPM
dat
a10-p
in M
SO
P
TC65
5D
ual S
Mbu
s Fa
n M
anag
er1
Not
e 1
Not
e 1
−40 t
o +85
+3.0
to
+5.5
320
FanS
ense
Fan
Mon
itor,
RPM
dat
a, O
vert
empe
ratu
re a
lert
10-p
in M
SO
P
TC66
4S
ingl
e S
Mbu
s Fa
n M
anag
er1
Not
e 1
Not
e 1
−40 t
o +85
+3.0
to
+5.5
320
FanS
ense
Fan
Mon
itor,
RPM
dat
a10-p
in M
SO
P
TC66
5S
ingl
e S
Mbu
s Fa
n M
anag
er1
Not
e 1
Not
e 1
−40 t
o +85
+3.0
to
+5.5
320
FanS
ense
Fan
Mon
itor,
RPM
dat
a, O
vert
empe
ratu
re a
lert
10-p
in M
SO
P
TC67
0Pr
edic
tive
Fan
Faul
t D
etec
tor
1N
/AN
/A−40 t
o +85
+3.0
to
+5.5
150
FanS
ense
Fan
Mon
itor,
Pro
gram
mab
le t
hres
hold
6-p
in S
OT-
23
not
e 1
: Th
ese
devi
ces
use
an e
xter
nal t
empe
ratu
re s
enso
r. Ac
cura
cy o
f th
e to
tal s
olut
ion
is a
fun
ctio
n of
the
acc
urac
y of
the
ext
erna
l sen
sor.
Ther
ma
l m
an
ag
emen
T P
ro
du
cTs
: clo
sed
loop
Fan
con
trol
lers
with
sm
Bus
/I2c™
Inte
rfac
e
Par
t #
# o
f Fa
n d
rive
rs
PW
m/l
inea
r con
trol
# o
f r
emot
e Te
mp.
m
onito
rs
am
bien
t Te
mp.
sen
sor
Typi
cal
acc
urac
y (°
c)
max
imum
a
ccur
acy
@ 2
5°
c (
°c)
max
imum
Te
mpe
ratu
re
ran
ge (
°c)
Vcc
ran
ge
(V)
sm
Bus
a
lert
sys
tem
shu
tdow
nVo
ltage
m
onito
rsd
escr
iptio
nPac
kage
s
EMC
21
12
1Li
near
31
±0.2
5±1.0
0 t
o +85
+3.3
and
+5
Yes
Yes
No
RPM
-Bas
ed F
an C
ontr
olle
r w
ith H
W T
herm
al
Shu
tdow
n20-p
in Q
FN
EMC
21
03
-11
PWM
11
±0.5
±1.0
−40 t
o +125
+3.0
to
+3.6
Yes
Yes
No
RPM
-Bas
ed F
an C
ontr
olle
r w
ith H
ardw
are
Ther
mal
S
hutd
own
12-p
in Q
FN
EMC
21
03
-21
PWM
31
±0.5
±1.0
−40 t
o +125
+3.0
to
+3.6
Yes
Yes
No
RPM
-Bas
ed F
an C
ontr
olle
r w
ith H
ardw
are
Ther
mal
S
hutd
own
16-p
in Q
FN
EMC
21
03
-41
PWM
31
±0.5
±1.0
−40 t
o +125
+3.0
to
+3.6
Yes
Yes
No
RPM
-Bas
ed F
an C
ontr
olle
r w
ith H
ardw
are
Ther
mal
S
hutd
own
and
EEPR
OM
load
able
16-p
in Q
FN
EMC
21
04
2PW
M4
1±0.2
5±1.0
−40 t
o +85
+3.0
to
+3.6
Yes
Yes
Yes
Dua
l RPM
-Bas
ed P
WM
Fan
Con
trol
ler
with
H
ardw
are
Ther
mal
Shu
tdow
n20-p
in Q
FN
EMC
21
05
1Li
near
41
±0.2
5±1.0
−40 t
o +85
+3.3
and
+5.0
Yes
Yes
Yes
RPM
-Bas
ed H
igh
Sid
e Fa
n C
ontr
olle
r w
ith
Har
dwar
e Th
erm
al S
hutd
own
20-p
in Q
FN
7Analog & Interface Product Selector Guide
Ther
ma
l m
an
ag
emen
T P
ro
du
cTs
: clo
sed
loop
Fan
con
trol
lers
with
sm
Bus
/I2c™
Inte
rfac
e (c
ontin
ued)
Par
t #
# o
f Fa
n d
rive
rs
PW
m/l
inea
r con
trol
# o
f r
emot
e Te
mp.
m
onito
rs
am
bien
t Te
mp.
sen
sor
Typi
cal
acc
urac
y (°
c)
max
imum
a
ccur
acy
@ 2
5°
c (
°c)
max
imum
Te
mpe
ratu
re
ran
ge (
°c)
Vcc
ran
ge
(V)
sm
Bus
a
lert
sys
tem
shu
tdow
nVo
ltage
m
onito
rsd
escr
iptio
nPac
kage
s
EMC
21
06
2PW
M a
nd
Line
ar4
1±0.2
5±1.0
−40 t
o +85
+3.3
and
+5.0
Yes
Yes
Yes
RPM
-Bas
ed H
igh
Sid
e Fa
n C
ontr
olle
r w
ith
Har
dwar
e Th
erm
al S
hutd
own
EMC
21
13
1PW
M3
1±0.5
±1.0
−40 t
o +125
+3.0
to
+3.6
Yes
Yes
No
Sin
gle
RPM
-Bas
ed F
an C
ontr
olle
r w
ith M
ultip
le
Tem
pera
ture
Zon
es &
Har
dwar
e Th
erm
al S
hutd
own
16-p
in Q
FN
EMC
23
01
1PW
MN
/AN
/AN
/AN
/A−40 t
o +125
+3.0
to
+3.6
Yes
No
N/A
Sin
gle
RPM
-Bas
ed P
WM
Fan
Spe
ed C
ontr
olle
r8-p
in M
SO
P
EMC
23
02
2PW
MN
/AN
/AN
/AN
/A−40 t
o +125
+3.0
to
+3.6
Yes
No
N/A
Dua
l RPM
-Bas
ed P
WM
Fan
Spe
ed C
ontr
olle
r10-p
in M
SO
P
EMC
23
03
3PW
MN
/AN
/AN
/AN
/A−40 t
o +125
+3.0
to
+3.6
Yes
No
N/A
Trip
le R
PM-B
ased
PW
M F
an S
peed
Con
trol
ler
12-p
in Q
FN
EMC
23
05
5PW
MN
/AN
/AN
/AN
/A−40 t
o +125
+3.0
to
+3.6
Yes
No
N/A
Pent
a R
PM-B
ased
PW
M F
an S
peed
Con
trol
ler
16-p
in Q
FN
mO
TOr
Dr
IVer
Sm
oTo
r d
rIV
er P
ro
du
cTs
: s
tepp
er m
otor
s, d
c m
otor
s an
d 3
-Pha
se B
ldc m
otor
s
Par
t #
mot
or
Type
Inpu
t
Volta
ge
ran
ge (
V)
Inte
rnal
/ex
tern
al
FeTs
out
put
cur
rent
(m
a)
con
trol
sch
eme
mot
or
spe
ed
out
put
Pro
tect
ions
Tem
pera
ture
o
pera
ting
r
ange
(°
c)
Feat
ures
Pac
kage
s
MTS
62
C1
9A
One
Bip
olar
S
tepp
er M
otor
or
Two
DC
Mot
ors
10
.0 t
o 4
0.0
Inte
rnal
75
0D
irect
PW
M In
put,
Cur
rent
Lim
it C
ontr
ol,
Mic
rost
eppi
ngN
oO
vert
empe
ratu
re,
Und
er V
olta
ge−40 t
o +105
Dua
l Ful
l Brid
ge M
otor
Driv
er f
or S
tepp
er M
otor
s,
Pin
com
patib
le w
ith A
llegr
o 6219
24-p
in S
OIC
MTS
29
16
AO
ne B
ipol
ar
Ste
pper
Mot
or o
r Tw
o D
C M
otor
s1
0.0
to
40
.0In
tern
al7
50
Dire
ct P
WM
Inpu
t, C
urre
nt L
imit
Con
trol
, M
icro
step
ping
No
Ove
rtem
pera
ture
, U
nder
Vol
tage
−40 t
o +105
Dua
l Ful
l Brid
ge M
otor
Driv
er f
or S
tepp
er M
otor
s,
Pin
com
patib
le w
ith A
llegr
o 2916
24-p
in S
OIC
MTD
65
01
C3-P
hase
Bru
shel
ss
DC
Mot
or2
.0 t
o 1
4.0
Inte
rnal
80
0S
enso
rless
Sin
usoi
dal
Freq
uenc
y G
ener
ator
Ove
rtem
pera
ture
, Mot
or L
ock-
up,
Ove
rcur
rent
, Ove
rvol
tage
−30 t
o +95
3-P
hase
BLD
C 1
80°
Sin
usoi
dal S
enso
rless
Fan
M
otor
Driv
er,
Ove
rcur
rent
lim
itatio
n, O
utpu
t S
witc
hing
Fre
quen
cy a
t 20 k
Hz
Ther
mal
ly E
nhan
ced
8-p
in S
OP
MTD
65
01
D3-P
hase
Bru
shel
ss
DC
Mot
or2
.0 t
o 1
4.0
Inte
rnal
50
0S
enso
rless
Sin
usoi
dal
Freq
uenc
y G
ener
ator
Ove
rtem
pera
ture
, Mot
or L
ock-
up,
Ove
rcur
rent
, Ove
rvol
tage
−30 t
o +95
3-P
hase
BLD
C 1
80°
Sin
usoi
dal S
enso
rless
Fa
n M
otor
Driv
er,
Boo
st M
ode,
Ove
rcur
rent
lim
itatio
n, O
utpu
t S
witc
hing
Fre
quen
cy a
t 20 k
Hz
10-p
in M
SO
P
MTD
65
01
G3-P
hase
Bru
shel
ss
DC
Mot
or2
.0 t
o 1
4.0
Inte
rnal
80
0S
enso
rless
Sin
usoi
dal
Freq
uenc
y G
ener
ator
Ove
rtem
pera
ture
, Mot
or L
ock-
up,
Ove
rcur
rent
, Ove
rvol
tage
−30 t
o +95
3-P
hase
BLD
C 1
80°
Sin
usoi
dal S
enso
rless
Fan
M
otor
Driv
er,
Ove
rcur
rent
lim
itatio
n, O
utpu
t S
witc
hing
Fre
quen
cy a
t 23 k
Hz
Ther
mal
ly E
nhan
ced
8-p
in S
OP
MTD
65
02
B3-P
hase
Bru
shel
ss
DC
Mot
or2
.0 t
o 5
.5In
tern
al7
50
Sen
sorle
ss S
inus
oida
lFr
eque
ncy
Gen
erat
orO
vert
empe
ratu
re, M
otor
Loc
k-up
, O
verc
urre
nt, O
verv
olta
ge−40 t
o +125
3-P
hase
BLD
C S
inus
oida
l Sen
sorle
ss F
an M
otor
D
river
, D
irect
ion
cont
rol,
Ove
rcur
rent
lim
itatio
n,
Out
put
Sw
itchi
ng F
requ
ency
at
30 k
Hz
10-p
in 3
× 3
TD
FN
MTD
65
05
3-P
hase
Bru
shel
ss
DC
Mot
or2
.0 t
o 5
.5In
tern
al7
50
Sen
sorle
ss S
inus
oida
lFr
eque
ncy
Gen
erat
orO
verc
urre
nt, O
verv
olta
ge,
Ove
rtem
pera
ture
, Mot
or L
ock-
up−40 t
o +125
180°
Sin
usoi
dal S
enso
rless
Driv
e, D
irect
ion
Con
trol
, Pr
ogra
mm
able
BEM
F C
oeffi
cien
t R
ange
, O
utpu
t S
witc
hing
Fre
quen
cy a
t 30 k
Hz
10-p
in 3
× 3
UD
FN
PO
Wer
ma
na
gem
enT
Po
Wer
ma
na
gem
enT:
Vol
tage
ref
eren
ces
Par
t #
Vcc r
ange
(V
)o
utpu
t Vo
ltage
(V
)m
ax. l
oad
cur
rent
(m
a)
Initi
al a
ccur
acy
(max
.%)
Tem
pera
ture
coe
ffici
ent
(ppm
/°c)
max
imum
sup
ply
cur
rent
(µa
@ 2
5°
c)
Pac
kage
s
MC
P15
25
2.7
to
5.5
2.5
±2
±1
50
100
3-p
in T
O-9
2,
3-p
in S
OT-
23B
MC
P15
41
4.3
to
5.5
4.0
96
±2
±1
50
100
3-p
in T
O-9
2,
3-p
in S
OT-
23B
8 Analog & Interface Product Selector Guide
Po
Wer
ma
na
gem
enT:
lin
ear
reg
ulat
ors
Par
t #
max
. Inp
ut
Volta
ge (
V)o
utpu
t Vo
ltage
(V)
out
put
cur
rent
(m
a)
Junc
tion
Tem
pera
ture
r
ange
(°
c)
Typi
cal
act
ive
cur
rent
(µa
)
Typi
cal d
ropo
ut
Volta
ge @
max
. Io
ut (
mV)
Typi
cal o
utpu
t Vo
ltage
a
ccur
acy
(%)
Feat
ures
Pac
kage
s
50
ma
to
25
0 m
a l
ow-d
ropo
ut l
inea
r r
egul
ator
s
TC20
14
6.0
1.8
, 2
.7, 2
.8, 3
.0, 3
.350
−40 t
o +125
55
45
±0.4
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own,
Ref
eren
ce b
ypas
s in
put
5-p
in S
OT-
23A
TC10
14
6.0
1.8
, 2
.5, 2
.7, 2
.8, 2
.85
, 3
.0, 3
.3, 3
.6, 4.0
, 5.0
50
−40 t
o +125
50
85
±0.5
Shu
tdow
n, R
efer
ence
byp
ass
inpu
t5-p
in S
OT-
23A
TC20
54
6.0
1.8
, 2
.7, 2
.8, 3
.0, 3
.350
−40 t
o +125
55
45
±0.4
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own,
Err
or o
utpu
t5-p
in S
OT-
23A
TC10
54
6.0
1.8
, 2
.5, 2
.7, 2
.8, 2
.85
, 3
.0, 3
.3, 3
.6, 4.0
, 5.0
50
−40 t
o +125
50
85
±0.5
Shu
tdow
n, E
rror
out
put
5-p
in S
OT-
23A
TC10
70
6.0
1.2
3 →
Vin
50
−40 t
o +125
50
85
–S
hutd
own,
Adj
usta
ble
5-p
in S
OT-
23A
TC10
72
6.0
2.5
, 2
.7, 2
.8, 2
.85
, 3
.0, 3
.3, 3
.6, 4
.0, 5.0
50
−40 t
o +125
50
85
±0.5
Shu
tdow
n, R
efer
ence
byp
ass
inpu
t,
Erro
r ou
tput
6-p
in S
OT-
23A
TC12
23
6.0
2.5
, 2
.7, 2
.8, 3
.0, 3
.3, 3
.6, 4
.0, 5
.050
−40 t
o +125
50
85
±0.5
Shu
tdow
n5-p
in S
OT-
23A
MC
P17
90
30
3.0
, 3
.3, 5
.070
−40 t
o +125
70
500
±0.2
Cer
amic
out
put
capa
cito
r st
able
3-p
in S
OT-
223,
3-p
in D
DPA
K
MC
P17
91
30
3.0
, 3
.3, 5
.070
−40 t
o +125
70
500
±0.2
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own,
Pow
er g
ood
5-p
in S
OT-
223,
5-p
in D
DPA
K
TC10
16
6.0
1.8
, 2
.7, 2
.8, 3
.080
−40 t
o +125
50
150
±0.5
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own
5-p
in S
C-7
0,
5-p
in S
OT-
23A
TC20
15
6.0
1.8
, 2
.5, 2
.6, 2
.7, 2
.8, 2
.85
, 3
.0, 3
.3, 5.0
100
−40 t
o +125
55
90
±0.4
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own,
Ref
eren
ce b
ypas
s in
put
5-p
in S
OT-
23A
TC10
15
6.0
1.8
, 2
.5, 2
.7, 2
.8, 2
.85
, 3
.0, 3
.3, 3
.6, 4.0
, 5.0
100
−40 t
o +125
50
180
±0.5
Shu
tdow
n, R
efer
ence
byp
ass
inpu
t5-p
in S
OT-
23A
TC20
55
6.0
1.8
, 2
.7, 2
.8, 3
.0, 3
.3100
−40 t
o +125
55
90
±0.4
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own,
Err
or o
utpu
t5-p
in S
OT-
23A
TC10
55
6.0
1.8
, 2
.5, 2
.7, 2
.8, 2
.85
, 3
.0, 3
.3, 3
.6, 4.0
, 5.0
100
−40 t
o +125
50
180
±0.5
Shu
tdow
n, E
rror
out
put
5-p
in S
OT-
23A
TC10
71
6.0
1.2
3 →
Vin
100
−40 t
o +125
50
180
–S
hutd
own,
Adj
usta
ble
5-p
in S
OT-
23A
TC10
73
6.0
2.5
, 2
.7, 2
.8, 2
.85
, 3
.0, 3
.3, 3
.6, 4
.0, 5.0
100
−40 t
o +125
50
180
±0.5
Shu
tdow
n, R
efer
ence
byp
ass
inpu
t,
Erro
r ou
tput
6-p
in S
OT-
23A
TC12
24
6.0
2.5
, 2
.7, 2
.8, 3
.0, 3
.3, 3
.6, 4
.0, 5
.0100
−40 t
o +125
50
180
±0.5
Shu
tdow
n5-p
in S
OT-
23A
TC11
88
6.0
1.8
, 2
.8, 2
.84
, 3
.15
120
−40 t
o +125
50
130
±0.5
Shu
tdow
n5-p
in S
OT-
23A
TC11
89
6.0
1.8
, 2
.8, 2
.84
, 3
.15
120
−40 t
o +125
50
130
±0.5
Shu
tdow
n5-p
in S
OT-
23A
TC21
85
6.0
1.8
, 2
.7, 2
.8, 3
.0, 3
.3150
−40 t
o +125
55
140
±0.4
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own,
Ref
eren
ce b
ypas
s in
put
5-p
in S
OT-
23A
TC11
85
6.0
1.8
, 2
.5, 2
.7, 2
.8, 2
.85
, 3
.0, 3
.3, 3
.6, 4.0
, 5.0
150
−40 t
o +125
50
270
±0.5
Shu
tdow
n, R
efer
ence
byp
ass
inpu
t5-p
in S
OT-
23A
TC21
86
6.0
1.8
, 2
.7, 2
.8, 3
.0, 3
.3150
−40 t
o +125
55
140
±0.4
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own,
Err
or o
utpu
t5-p
in S
OT-
23A
TC11
86
6.0
1.8
, 2
.5, 2
.7, 2
.8, 2
.85
, 3
.0, 3
.3, 3
.6, 4.0
, 5.0
150
−40 t
o +125
50
270
±0.5
Shu
tdow
n, E
rror
out
put
5-p
in S
OT-
23A
TC11
87
6.0
1.2
3 →
Vin
150
−40 t
o +125
50
270
–S
hutd
own,
Adj
usta
ble
5-p
in S
OT-
23A
TC10
17
6.0
1.8
, 2.6
, 2.7
, 2.8
, 2.8
5, 2
.9, 3
.3, 3
.4150
−40 t
o +125
53
285
±0.5
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own
5-p
in S
OT-
23A,
5-p
in S
C-7
0
MC
P17
54
161
.8, 2
.5, 2
.7, 2
.8, 2
.85
, 3
.0, 3
.3, 3
.6, 4.0
, 5.0
150
−40
to +
125
5630
0±2
70 d
B P
SR
R5-p
in S
OT-
23,
5-p
in S
OT-
89,
5-p
in S
OT-
223,
8-p
in 2
× 3
TD
FN
MC
P17
54
S16
1.8
, 2
.5, 2
.7, 2
.8, 2
.85
, 3
.0, 3
.3, 3
.6, 4.0
, 5.0
150
−40
to +
125
5630
0±2
70 d
B P
SR
R3-p
in S
OT-
23,
3-p
in S
OT-
89,
3-p
in S
OT-
223,
8-p
in 2
× 3
TD
FN
MC
P18
01
10
0.9
, 1
.2, 1
.8, 2
.5, 3
.0, 3
.3, 5
.0, 6
.0150
−40 t
o +85
25
250
±0.4
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own,
Hig
h PS
RR
5-p
in S
OT-
23A
9Analog & Interface Product Selector Guide
Po
Wer
ma
na
gem
enT:
lin
ear
reg
ulat
ors
(con
tinue
d)
Par
t #
max
. Inp
ut
Volta
ge (
V)o
utpu
t Vo
ltage
(V)
out
put
cur
rent
(m
a)
Junc
tion
Tem
pera
ture
r
ange
(°
c)
Typi
cal
act
ive
cur
rent
(µa
)
Typi
cal d
ropo
ut
Volta
ge @
max
. Io
ut (
mV)
Typi
cal o
utpu
t Vo
ltage
a
ccur
acy
(%)
Feat
ures
Pac
kage
s
50
ma
to
25
0 m
a l
ow-d
ropo
ut l
inea
r r
egul
ator
s (c
ontin
ued)
MC
P18
04
28
1.8
to
18
150
−40 t
o +85
50
1300
±2
Shu
tdow
n, H
igh
PSR
R5-p
in S
OT-
23,
5-p
in S
OT-
89,
3-p
in S
OT-
89,
3-p
in S
OT-
223
MC
P17
10
5.5
1.2
, 1
.8, 2
.5, 3
.3, 4
.2200
−40 t
o +85
0.0
2200
–20 n
A ac
tive
curr
ent
2 ×
2 D
FN
MC
P17
00
6.0
1.2
, 1
.8, 2
.5, 3
.0, 3
.3, 5
.0250
−40 t
o +125
1.6
300
±0.4
1.0
µF
cera
mic
cap
sta
ble,
S
hort
-circ
uit
prot
ectio
n3-p
in T
O-9
2,
3-p
in S
OT-
23A,
3-p
in S
OT-
89
MC
P17
02
13
.21
.2, 1
.5, 1
.8, 2
.5, 2
.8, 3
.0, 3
.3,
4.0
, 5
.0250
−40 t
o +125
2650
±0.4
Cer
amic
out
put
capa
cito
r st
able
, U
ltra-
low
gro
und
curr
ent,
13.2
V V i
n m
ax.
3-p
in T
O-9
2,
3-p
in S
OT-
23A,
3-p
in S
OT-
89
MC
P17
03
16
1.2
, 1
.5, 1
.8, 2
.5, 2
.8, 3
.0, 3
.3,
4.0
, 5
.0250
−40 t
o +125
2650
±0.4
Cer
amic
out
put
capa
cito
r st
able
, U
ltra-
low
gro
und
curr
ent,
16V
V in m
ax.
3-p
in S
OT-
23A,
3-p
in S
OT-
89,
3-p
in S
OT-
223
MC
P17
03
A1
61
.2, 1
.5, 1
.8, 2
.5, 2
.8, 3
.0, 3
.3,
4.0
, 5
.0250
−40 t
o +125
2650
±0.4
Cer
amic
out
put
capa
cito
r st
able
, U
ltra-
low
gro
und
curr
ent
3-p
in S
OT-
-23A,
3-p
in S
OT-
89,
3-p
in S
OT-
223,
8-p
in 2
× 3
DFN
30
0 m
a l
ow-d
ropo
ut l
inea
r r
egul
ator
s
TC11
07
6.0
2.5
, 2
.7, 2
.8, 3
.0, 3
.3, 5
.0300
−40 t
o +125
50
240
±0.5
Shu
tdow
n, R
efer
ence
byp
ass
inpu
t8-p
in M
SO
P, 8
-pin
SO
IC
TC11
08
6.0
2.5
, 2
.7, 2
.8, 3
.0, 3
.3, 5
.0300
−40 t
o +125
50
240
±0.5
3-p
in S
OT-
223
TC11
73
6.0
2.5
, 2
.7, 2
.8, 3
.0, 3
.3, 5
.0300
−40 t
o +125
50
240
±0.5
Shu
tdow
n, R
efer
ence
byp
ass
inpu
t,
Erro
r ou
tput
8-p
in M
SO
P, 8
-pin
SO
IC
TC11
74
6.0
1.2
3 →
Vin
300
−40 t
o +125
50
240
–S
hutd
own,
Ref
eren
ce b
ypas
s in
put,
Ad
just
able
8-p
in M
SO
P, 8
-pin
SO
IC
TC12
69
6.0
2.5
, 2
.8, 3
.0, 3
.3, 5
.0300
−40 t
o +125
50
240
±0.5
Shu
tdow
n, R
efer
ence
byp
ass
inpu
t 8-p
in M
SO
P
MC
P18
02
10
0.9
, 1
.2, 1
.8, 2
.5, 3
.0, 3
.3, 5
.0, 6.0
300
−40 t
o +85
25
250
±0.4
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own,
Hig
h PS
RR
5-p
in S
OT-
23A
MC
P18
24
6.0
Fixe
d: 0
.8, 1
.2, 1
.8, 2
.5, 3
.0, 3
.3, 5
.0
Adju
stab
le: 0
.8 to
5.0
300
−40 t
o +125
120
200
±0.5
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own,
Pow
er g
ood
5-p
in S
OT-
223,
5-p
in S
OT-
23
MC
P18
24
S6
.00
.8, 1
.2, 1
.8, 2
.5, 3
.0, 3
.3, 5
.0300
−40 t
o +125
120
200
±0.5
Cer
amic
out
put
capa
cito
r st
able
3-p
in S
OT-
223
50
0 m
a t
o 8
00
ma
low
-dro
pout
lin
ear
reg
ulat
ors
TC12
62
6.0
2.5
, 2
.8, 3
.0, 3
.3, 5
.0500
−40 t
o +125
80
350
±0.5
Ove
rtem
pera
ture
pro
tect
ion,
O
verc
urre
nt p
rote
ctio
n3-p
in T
O-2
20,
3-p
in D
DPA
K,
3-p
in S
OT-
223
TC12
63
6.0
2.5
, 2
.8, 3
.0, 3
.3, 5
.0500
−40 t
o +125
80
350
±0.5
Shu
tdow
n, R
efer
ence
byp
ass
inpu
t,
Erro
r ou
tput
8-p
in S
OIC
, 5-p
in T
O-2
20,
5-p
in D
DPA
K
TC12
68
6.0
2.5
500
−40 t
o +125
80
350
±0.5
Shu
tdow
n, R
efer
ence
byp
ass
inpu
t,
Erro
r ou
tput
8-p
in S
OIC
MC
P17
25
6.0
0.8
, 1
.2, 1
.8, 2
.5, 3
.0, 3
.3, 5
.0500
−40 t
o +125
120
210
±0.5
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own,
Cd
elay
, Po
wer
goo
d8-p
in 2
× 3
DFN
, 8-p
in S
OIC
MC
P18
25
6.0
Fixe
d: 0
.8, 1
.2, 1
.8, 2
.5, 3
.0, 3
.3, 5
Adju
stab
le: 0
.8 t
o 5
.0500
−40 t
o +125
120
210
±0.5
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own,
Pow
er g
ood
5-p
in T
O-2
20,
5-p
in D
DPA
K,
5-p
in S
OT-
223
MC
P18
25
S6
.00
.8, 1
.2, 1
.8, 2
.5, 3
.0, 3
.3, 5
500
−40 t
o +125
120
210
±0.5
Cer
amic
out
put
capa
cito
r st
able
3-p
in T
O-2
20,
3-p
in D
DPA
K,
3-p
in S
OT-
223
TC12
64
6.0
1.8
, 2
.5, 3
.0, 3
.3800
−40 t
o +125
80
450
±0.5
Ove
rtem
pera
ture
pro
tect
ion,
O
verc
urre
nt p
rote
ctio
n3-p
in T
O-2
20,
3-p
in D
DPA
K,
3-p
in S
OT-
223
TC12
65
6.0
1.8
, 2
.5, 3
.0, 3
.3800
−40 t
o +125
80
450
±0.5
Shu
tdow
n, R
efer
ence
byp
ass
inpu
t,
Erro
r ou
tput
8-p
in S
OIC
, 5-p
in T
O-2
20,
5-p
in D
DPA
K
TC21
17
6.0
1.8
, 2
.5, 3
.0, 3
.3800
−40 t
o +125
80
600
±0.5
Ove
rtem
pera
ture
pro
tect
ion,
O
verc
urre
nt p
rote
ctio
n3-p
in S
OT-
223,
3-p
in D
DPA
K
10 Analog & Interface Product Selector Guide
Po
Wer
ma
na
gem
enT:
lin
ear
reg
ulat
ors
(con
tinue
d)
Par
t #
max
. Inp
ut
Volta
ge (
V)o
utpu
t Vo
ltage
(V)
out
put
cur
rent
(m
a)
Junc
tion
Tem
pera
ture
r
ange
(°
c)
Typi
cal
act
ive
cur
rent
(µa
)
Typi
cal d
ropo
ut
Volta
ge @
max
. Io
ut (
mV)
Typi
cal o
utpu
t Vo
ltage
a
ccur
acy
(%)
Feat
ures
Pac
kage
s
1a
and
abo
ve l
ow-d
ropo
ut l
inea
r r
egul
ator
s
MC
P17
26
6.0
Fixe
d: 0
.8, 1
.2, 1
.8, 2
.5, 3
.0, 3
.3, 5
Adju
stab
le: 0
.8 t
o 5
.01000
−40 t
o +125
140
300
±0.4
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own,
Cd
elay
, Po
wer
goo
d8-p
in 3
× 3
DFN
, 8-p
in S
OIC
MC
P18
26
6.0
Fixe
d: 0
.8, 1
.2, 1
.8, 2
.5, 3
.0, 3
.3, 5
Adju
stab
le: 0
.8 t
o 5
.01000
−40 t
o +125
140
300
±0.5
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own,
Pow
er g
ood
5-p
in T
O-2
20,
5-p
in D
DPA
K,
5-p
in S
OT-
223
MC
P18
26
S6
.00
.8, 1
.2, 1
.8, 2
.5, 3
.0, 3
.3, 5
1000
−40 t
o +125
140
300
±0.5
Cer
amic
out
put
capa
cito
r st
able
3-p
in T
O-2
20,
3-p
in D
DPA
K,
3-p
in S
OT-
223
MC
P17
27
6.0
Fixe
d: 0
.8, 1
.2, 1
.8, 2
.5, 3
.0, 3
.3, 5
Adju
stab
le: 0
.8 t
o 5
.01500
−40 t
o +125
140
330
±0.5
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own,
Cd
elay
, Po
wer
goo
d8-p
in 3
× 3
DFN
, 8-p
in S
OIC
MC
P18
27
6.0
Fixe
d: 0
.8, 1
.2, 1
.8, 2
.5, 3
.0, 3
.3, 5
Adju
stab
le: 0
.8 t
o 5
.01500
−40 t
o +125
140
330
±0.5
Cer
amic
out
put
capa
cito
r st
able
, S
hutd
own,
Pow
er g
ood
5-p
in D
DPA
K,
5-p
in T
O-2
20
MC
P18
27
S6
.00
.8, 1
.2, 1
.8, 2
.5, 3
.0, 3
.3, 5
1500
−40 t
o +125
140
330
±0.5
Cer
amic
out
put
capa
cito
r st
able
3-p
in D
DPA
K,
3-p
in T
O-2
20
app
licat
ion
spe
cific
low
-dro
pout
lin
ear
reg
ulat
ors
TC12
66
6.0
3.3
200
−5 t
o +70
230
200
±1.0
PCI c
ompl
iant
8-p
in S
OIC
, 8-p
in M
SO
P
TC12
67
6.0
3.3
400
−5 t
o +70
230
300
±1.0
PCI c
ompl
iant
5-p
in D
DPA
K
TC57
82
.5, 3
.0, 3
.34,0
00
(1)
−40 t
o +85
50
100
(1)
±2.0
Shu
tdow
n, E
xter
nal t
rans
isto
r5-p
in S
OT-
23A
TC59
−1
0−
3.0
, −
5.0
100
−40 t
o +85
3380
±0.5
Neg
ativ
e LD
O3-p
in S
OT-
23A
not
e 1
: D
epen
ding
on
exte
rnal
tra
nsis
tor
conf
igur
atio
n.
Po
Wer
ma
nag
emen
T: l
ow-d
ropo
ut r
egul
ator
com
bina
tion
Pro
duct
s
TC13
00
(1)
6.0
2.5
, 2
.7, 2
.8, 2
.85
, 3
.0, 3
.3300
−40 t
o +125
80
210
±0.5
Shu
tdow
n, R
efer
ence
byp
ass
inpu
t,
LDO
plu
s R
eset
out
put
8-p
in M
SO
P
TC13
01
A(1)
6.0
LDO
1: 1
.5–3
.3
LDO
2: 1
.5–3
.3LD
O1: 300
LDO
2: 150
−40 t
o +125
103
LDO
1: 104
LDO
2: 150
±0.5
Dua
l LD
O p
lus
Res
et o
utpu
t, S
hutd
own,
R
efer
ence
byp
ass,
Vol
tage
det
ect
8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
TC13
01
B(1
)6
.0LD
O1
: 1
.5–3
.3
LDO
2: 1
.5–3
.3LD
O1: 300
LDO
2: 150
−40 t
o +125
114
LDO
1: 104
LDO
2: 150
±0.5
Dua
l LD
O p
lus
Res
et,
per
chan
nel
outp
ut s
hutd
own,
Ref
eren
ce b
ypas
s8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
TC13
02
A(1)
6.0
LDO
1: 1
.5–3
.3
LDO
2: 1
.5–3
.3LD
O1: 300
LDO
2: 150
−40 t
o +125
103
LDO
1: 104
LDO
2: 150
±0.5
Dua
l LD
O,
Out
put
shut
dow
n re
fere
nce
bypa
ss,
Volta
ge d
etec
t8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
TC13
02
B(1
)6
.0LD
O1
: 1
.5–3
.3
LDO
2: 1
.5–3
.3LD
O1: 300
LDO
2: 150
−40 t
o +125
114
LDO
1: 104
LDO
2: 150
±0.5
Dua
l LD
O,
per
chan
nel o
utpu
t sh
utdo
wn,
Ref
eren
ce b
ypas
s8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
TC13
05
6.0
2.5
, 2
.8, 3
.0150
(1)
−40 t
o +125
120
240
±0.5
Dua
l LD
O p
lus
Res
et o
utpu
t, R
efer
ence
by
pass
inpu
t, S
hutd
own,
Sel
ect
Mod
e™
sele
ctab
le o
utpu
t vo
ltage
s10-p
in M
SO
P
TC13
06
6.0
1.8
, 2
.8, 3
.0150
(1)
−40 t
o +125
120
240
±0.5
Dua
l LD
O p
lus
Res
et o
utpu
t,
Shu
tdow
n, S
elec
t M
ode™
sel
ecta
ble
outp
ut v
olta
ges
8-p
in M
SO
P
TC13
07
(1)
6.0
1.8
, 2
.5, 2
.8, 3
.0150
(1)
−40 t
o +125
220
200
±0.5
Qua
d LD
O p
lus
Res
et o
utpu
t,
Shu
tdow
n, S
elec
t M
ode™
sel
ecta
ble
outp
ut v
olta
ges
16-p
in Q
SO
P
not
e 1
: LD
Os
with
shu
tdow
n (e
xcep
t Po
wer
Man
agem
ent
Com
bina
tion
Prod
ucts
as
indi
cate
d) h
ave
typi
cal s
hutd
own
curr
ents
of
0.0
5 m
A.
Po
Wer
ma
na
gem
enT:
sw
itchi
ng r
egul
ator
s
Par
t #
des
crip
tion
Inpu
t Vo
ltage
r
ange
(V)
out
put
Volta
ge (
V)
ope
ratin
g Te
mpe
ratu
re
ran
ge (
°c)
con
trol
sch
eme
sw
itchi
ng
Freq
uenc
y (k
hz)
Typi
cal
activ
e cu
rren
t (µa
)
out
put
cur
rent
(m
a)
Feat
ures
Pac
kage
s
MC
P16
01
Syn
chro
nous
Buc
k R
egul
ator
2.7
to
5.5
0.9
V to
Vin
−40 t
o +85
PFM
/PW
M/L
DO
750
825 (PW
M)
125 (PF
M)
500
UVL
O,
Auto
-sw
itchi
ng,
LDO
8-p
in M
SO
P
MC
P16
02
Syn
chro
nous
Buc
k R
egul
ator
2.7
to
5.5
0.8
to
4.5
−40 t
o +85
PFM
/PW
M2000
35
500
PFM
, PW
M a
uto-
switc
hing
, U
VLO
, S
oft
star
t, P
ower
go
od in
dica
tor
10-p
in M
SO
P,
10-p
in 3
× 3
DFN
MC
P16
03
Syn
chro
nous
Buc
k R
egul
ator
2.7
to
5.5
0.8
to
4.0
−40 t
o +85
PFM
/PW
M2000
45
500
Ove
rtem
pera
ture
and
Ove
rcur
rent
pro
tect
ion
5-p
in T
SO
T-23,
8-p
in 2
× 3
DFN
11Analog & Interface Product Selector Guide
Po
Wer
ma
na
gem
enT:
sw
itchi
ng r
egul
ator
s (c
ontin
ued)
Par
t #
des
crip
tion
Inpu
t Vo
ltage
r
ange
(V)
out
put
Volta
ge (
V)
ope
ratin
g Te
mpe
ratu
re
ran
ge (
°c)
con
trol
sch
eme
sw
itchi
ng
Freq
uenc
y (k
hz)
Typi
cal
activ
e cu
rren
t (µa
)
out
put
cur
rent
(m
a)
Feat
ures
Pac
kage
s
MC
P16
12
Syn
chro
nous
Buc
k R
egul
ator
2.7
to
5.5
0.8
to
5.5
−40 t
o +85
Con
stan
t fr
eque
ncy, P
WM
1400
5000
1000
Ove
rall
effic
ienc
y > 9
4%
, S
oft
star
t,
Ove
rtem
pera
ture
and
Ove
rcur
rent
pro
tect
ion
8-p
in M
SO
P,
8-p
in 3
× 3
DFN
MC
P16
23
/4S
tep-
up D
C/D
C
Reg
ulat
or0
.65
to
62
.0 t
o 5.5
−40 t
o +85
PWM
or
PWM
/PFM
500
19
175
Inte
grat
ed s
ynch
rono
us b
oost
reg
ulat
or,
0.6
5V
star
t-up
volta
ge,
Sof
t st
art,
Tru
e lo
ad d
isco
nnec
t6-p
in S
OT-
23,
8-p
in 2
× 3
DFN
MC
P1640/B
/C/D
Ste
p-up
DC
/DC
R
egul
ator
0.6
5 t
o 6
2.0
to
5.5
−40 t
o +85
PWM
or
PWM
/PFM
500
19
350
Inte
grat
ed s
ynch
rono
us b
oost
reg
ulat
or,
0.6
5V
star
t-up
volta
ge,
Sof
t st
art,
Tru
e lo
ad d
isco
nnec
t or
in
put-t
o-ou
tput
byp
ass
optio
n
6-p
in S
OT-
23,
8-p
in 2
× 3
DFN
MC
P16
50
Ste
p-up
DC
/DC
C
ontr
olle
r2
.7 t
o 5
.52
.5 t
o ex
t. t
x lim
ited
−40 t
o +125
Con
stan
t fr
eque
ncy
750
120
560/4
40
2 d
uty
cycl
es f
or m
in.
and
max
. lo
ads,
Shu
tdow
n co
ntro
l, U
VLO
, S
oft
star
t8-p
in M
SO
P
MC
P16
51
Ste
p-up
DC
/DC
C
ontr
olle
r2
.7 t
o 5
.52
.5 t
o ex
t. t
x lim
ited
−40 t
o +125
Con
stan
t fr
eque
ncy,
2 fi
xed
DC
750
120
560/4
40
2 d
uty
cycl
es f
or m
in.
and
max
. lo
ads,
Shu
tdow
n co
ntro
l, lo
w b
atte
ry d
etec
t, U
VLO
, S
oft
star
t8-p
in M
SO
P
MC
P16
52
Ste
p-up
DC
/DC
C
ontr
olle
r2
.7 t
o 5
.52
.5 t
o ex
t. t
x lim
ited
−40 t
o +125
Con
stan
t fr
eque
ncy,
2 fi
xed
DC
750
120
560/4
40
2 d
uty
cycl
es f
or m
in.
and
max
. lo
ads,
Shu
tdow
n co
ntro
l, Po
wer
goo
d in
dica
tor,
UVL
O,
Sof
t st
art
8-p
in M
SO
P
MC
P16
53
Ste
p-up
DC
/DC
C
ontr
olle
r2
.7 t
o 5
.52
.5 t
o ex
t. t
x lim
ited
−40 t
o +125
Con
stan
t fr
eque
ncy,
2 fi
xed
DC
750
120
560/4
40
2 d
uty
cycl
es f
or m
in.
and
max
. lo
ads,
Shu
tdow
n co
ntro
l, Lo
w b
atte
ry d
etec
t, P
ower
goo
d in
dica
tor,
U
VLO
, S
oft
star
t10-p
in M
SO
P
MC
P16
30
13
0V
Inpu
t B
uck
Reg
ulat
or4
.0 t
o 3
02
.0 t
o 15
−40 t
o +85
PWM
500
2000
600
Inte
grat
ed N
-cha
nnel
, U
VLO
, S
oft
star
t,
Ove
rtem
pera
ture
pro
tect
ion
SO
T23-6
MC
P16
32
1S
ynch
rono
us B
uck
Reg
ulat
or6
to
24
0.9
to
5−40 t
o +125
PWM
/PFM
1000
2300
1000
Inte
grat
ed s
witc
hes,
Inte
rnal
com
pens
atio
n, P
eak
curr
ent m
ode
cont
rol,
Sof
t-sta
rt, U
VLO
, Pow
er g
ood
pin
16-p
in 3
× 3
Q
FN
MC
P16
32
2S
ynch
rono
us B
uck
Reg
ulat
or6
to
24
0.9
to
5−40 t
o +125
PWM
/PFM
1000
2300
2000
Inte
grat
ed s
witc
hes,
Inte
rnal
com
pens
atio
n, P
eak
curr
ent m
ode
cont
rol,
Sof
t-sta
rt, U
VLO
, Pow
er g
ood
pin
16-p
in 3
× 3
Q
FN
MC
P16
32
3S
ynch
rono
us B
uck
Reg
ulat
or6
to
18
0.9
to
5−40 t
o +125
PWM
/PFM
1000
2300
3000
Inte
grat
ed s
witc
hes,
Inte
rnal
com
pens
atio
n, P
eak
curren
t mod
e co
ntro
l, Sof
t-sta
rt, U
VLO
, Pow
er g
ood
pin
16-p
in 3
× 3
Q
FN
TC10
5S
tep-
dow
n D
C/D
C
Con
trol
ler
2.2
to
10
3.0
, 3.3
, 5.0
−40 t
o +85
PFM
/PW
M300
57
1,0
00
Low
pow
er s
hutd
own
mod
5-p
in S
OT-
23A
TC11
5S
tep-
up D
C/D
C
Reg
ulat
or0
.9 t
o 1
03
.0, 3
.3, 5
.0−40 t
o +85
PFM
/PW
M100
80
140
Feed
back
vol
tage
sen
sing
, Lo
w p
ower
sh
utdo
wn
mod
e5-p
in S
OT-
89
TC11
0S
tep-
up D
C/D
C
Con
trol
ler
2.0
to
10
3.0
, 3.3
, 5.0
−40 t
o +85
PFM
/PW
M100/3
00
50/1
20
300
Sof
t st
art,
Low
pow
er s
hutd
own
mod
e5-p
in S
OT-
23A
Po
Wer
ma
nag
emen
T: s
witc
hing
reg
ulat
ors
com
bina
tion
Pro
duct
s
TC13
03
Syn
chro
nous
Buc
k R
egul
ator
, LD
O w
/Po
wer
goo
d2
.7 t
o 5
.5D
C/D
C: 0
.8 t
o 4.5
LD
O: 1
.5 t
o 3.3
−40 t
o +85
PFM
/PW
M2000
65/6
00
DC
/DC
: 500 m
A LD
O: 300 m
APF
M/P
WM
aut
o-sw
itchi
ng,
Pow
er g
ood
outp
ut10-p
in M
SO
P,
10-p
in 3
× 3
DFN
TC13
04
Syn
chro
nous
Buc
k R
egul
ator
, LD
O2
.7 t
o 5
.5D
C/D
C: 0
.8 t
o 4.5
LD
O: 1
.5 t
o 3.3
−40 t
o +85
PFM
/PW
M2000
65/6
00
DC
/DC
: 500 m
A LD
O: 300 m
APF
M/P
WM
aut
o-sw
itchi
ng,
Pow
er s
eque
ncin
g10-p
in M
SO
P,
10-p
in 3
× 3
DFN
TC13
13
Syn
chro
nous
Buc
k R
egul
ator
, LD
O2
.7 t
o 5
.5D
C/D
C: 0
.8 t
o 4.5
LD
O: 1
.5 t
o 3.3
−40 t
o +85
PFM
/PW
M2000
65/6
00
DC
/DC
: 500 m
A LD
O: 300 m
APF
M/P
WM
aut
o-sw
itchi
ng10-p
in M
SO
P,
10-p
in 3
× 3
DFN
Po
Wer
ma
na
gem
enT:
PW
m c
ontr
olle
rs
Par
t #
des
crip
tion
Inpu
t Vo
ltage
r
ange
(V)
ope
ratin
g Te
mp.
r
ange
(°
c)
sw
itchi
ng
Freq
uenc
y (k
hz)
Typi
cal a
ctiv
e cur
rent
(m
a)
Feat
ures
Pac
kage
s
MC
P16
30
Cur
rent
mod
e, h
igh-
spee
d PW
M t
o us
e w
ith P
IC®
MC
Us
3.0
to
5.5
−40 t
o +125
1000
2.8
UVL
O, S
hort
circ
uit
and
Ove
rtem
pera
ture
pro
tect
ion,
In
tegr
ated
MO
SFE
T dr
iver
8-p
in M
SO
P, 8
-pin
2 ×
3 D
FN
MC
P16
30
VVo
ltage
mod
e, h
igh-
spee
d PW
M t
o us
e w
ith P
IC M
CU
s3
.0 t
o 5
.5−40 t
o +125
1000
2.8
UVL
O, S
hort
circ
uit
and
Ove
rtem
pera
ture
pro
tect
ion,
In
tegr
ated
MO
SFE
T dr
iver
8-p
in M
SO
P, 8
-pin
2 ×
3 D
FN
MC
P16
31
Cur
rent
mod
e, h
igh-
spee
d PW
M t
o us
e w
ith P
IC M
CU
s3
.0 t
o 5
.5−40 t
o +125
2000
3.7
UVL
O, In
tegr
ated
err
or,
Cur
rent
and
vol
tage
sen
se a
mpl
ifier
s,
Ove
rvol
tage
com
para
tor
and
MO
SFE
T dr
iver
20-p
in S
SO
P, 2
0-p
in T
SS
OP,
20-p
in 4
× 4
QFN
MC
P16
31
HV
Cur
rent
mod
e, h
igh-
spee
d PW
M t
o us
e w
ith P
IC M
CU
s3
.5 t
o 16
−40 t
o +125
2000
3.7
Inte
grat
ed 1
6V
LDO
, U
VLO
, In
tegr
ated
err
or,
Cur
rent
and
vol
tage
se
nse
ampl
ifier
s, O
verv
olta
ge c
ompa
rato
r an
d M
OS
FET
driv
er20-p
in S
SO
P, 2
0-p
in T
SS
OP
MC
P16
31
VVo
ltage
mod
e, h
igh-
spee
d PW
M t
o us
e w
ith P
IC M
CU
s3
.0 t
o 5
.5−40 t
o +125
2000
3.7
UVL
O, In
tegr
ated
err
or,
Cur
rent
and
vol
tage
sen
se a
mpl
ifier
s,
Ove
rvol
tage
com
para
tor
and
MO
SFE
T dr
iver
20-p
in S
SO
P, 2
0-p
in T
SS
OP,
20-p
in 4
× 4
QFN
MC
P16
31
VHV
Volta
ge m
ode,
hig
h-sp
eed
PWM
to
use
with
PIC
MC
Us
3.5
to
16
−40 t
o +125
2000
3.7
Inte
grat
ed 1
6V
LDO
, U
VLO
, In
tegr
ated
err
or,
Cur
rent
and
vol
tage
se
nse
ampl
ifier
s, O
verv
olta
ge c
ompa
rato
r an
d M
OS
FET
driv
er20-p
in S
SO
P, 2
0-p
in T
SS
OP
MC
P19
03
5S
ynch
rono
us B
uck
PWM
Con
trol
ler
with
Inte
grat
ed M
OS
FET
Driv
er F
amily
4.5
to
30
−40 t
o +125
300
6M
ultip
le d
ead-
time
optio
ns fo
r lo
w-F
OM
MO
SFE
T co
mpa
tibili
ty,
Inte
grat
ed c
urre
nt s
ense
cap
abili
ty fo
r sh
ort
circ
uit
prot
ectio
n,
Inte
grat
ed s
ynch
rono
us M
OS
FET
driv
er a
nd li
near
vol
tage
reg
ulat
or10-p
in 3
× 3
DFN
12 Analog & Interface Product Selector Guide
Po
Wer
ma
na
gem
enT:
cha
rge
Pum
p d
c-to
-dc c
onve
rter
s
Par
t #
Inpu
t Vo
ltage
r
ange
(V)
out
put
Volta
ge (
V)o
pera
ting
Tem
p.
ran
ge (
°c)
max
imum
Inpu
t cur
rent
(1) (
µa)
Typi
cal a
ctiv
e o
utpu
t cur
rent
(m
a)
Feat
ures
Pac
kage
s
Inve
rtin
g or
dou
blin
g cha
rge
Pum
ps
TC10
44
S1
.5 t
o 1
2Vo
ut
= −
Vin o
r Vo
ut
= 2
Vin
−40 t
o +85
160
20
85 k
Hz
osci
llato
r, B
oost
mod
e8-p
in P
DIP
, 8-p
in S
OIC
TC76
60
1.5
to
10
Vou
t =
−Vi
n o
r Vo
ut
= 2
Vin
−40 t
o +85
180
20
10 k
Hz
osci
llato
r8-p
in P
DIP
, 8-p
in S
OIC
TC76
60
H1
.5 t
o 1
0Vo
ut
= −
Vin o
r Vo
ut
= 2
Vin
−40 t
o +85
1,0
00
20
120 k
Hz
osci
llato
r8-p
in P
DIP
, 8-p
in S
OIC
TC76
60
S1
.5 t
o 1
2Vo
ut
= −
Vin o
r Vo
ut
= 2
Vin
−40 t
o +85
160
20
45 k
Hz
osci
llato
r, B
oost
mod
e8-p
in P
DIP
, 8-p
in S
OIC
TC76
62
B1
.5 t
o 1
5Vo
ut
= −
Vin o
r Vo
ut
= 2
Vin
−40 t
o +85
180
20
35 k
Hz
osci
llato
r, B
oost
mod
e8-p
in P
DIP
, 8-p
in S
OIC
TC12
40
2.5
to
4.0
Vou
t =
2 V
in−40 t
o +85
900
40
Shu
tdow
n, 1
60 k
Hz
osci
llato
r6-p
in S
OT-
23A
TC12
40
A2
.5 t
o 5
.5Vo
ut
= 2
Vin
−40 t
o +85
900
40
Shu
tdow
n, 1
60 k
Hz
osci
llato
r6-p
in S
OT-
23A
TC76
62
A3
.0 t
o 1
8Vo
ut
= −
Vin o
r Vo
ut
= 2
Vin
−40 t
o +85
200
40
12 k
Hz
osci
llato
r8-p
in P
DIP
, 8-p
in S
OIC
TC96
23
.0 t
o 1
8Vo
ut
= −
Vin o
r Vo
ut
= 2
Vin
−40 t
o +85
200
80
Sel
ecta
ble
12 k
Hz
or 2
4 k
Hz
osci
llato
r8-p
in P
DIP
, 16-p
in S
OIC
Inve
rtin
g an
d d
oubl
ing
cha
rge
Pum
ps
TC68
22
.4 t
o 5
.5Vo
ut
= −
2 V
in−40 t
o +85
400
10
12 k
Hz
osci
llato
r8-p
in P
DIP
, 8-p
in S
OIC
reg
ulat
ed c
harg
e P
umps
MC
P12
52
2.1
/2.7
to
5.5
2
.0 t
o 5
.5S
elec
tabl
e 3
.3V
or 5
.0V
or
Adju
stab
le 1
.5V
to 5
.5V
−40 t
o +85
120
120 m
A fo
r V i
n >
3.0
VPo
wer
goo
d ou
tput
, 650 k
Hz
osci
llato
r8-p
in M
SO
P
MC
P12
53
2.1
/2.7
to
5.5
2
.0 t
o 5
.5S
elec
tabl
e 3
.3V
or 5
.0V
or
Adju
stab
le 1
.5V
to 5
.5V
−40 t
o +85
120
120 m
A fo
r V i
n >
3.0
VPo
wer
goo
d ou
tput
, 1 M
Hz
osci
llato
r8-p
in M
SO
P
MC
P12
56
1.8
to
3.6
3.3
−40 t
o +85
100
100
Pow
er g
ood,
Sle
ep m
ode
10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
MC
P12
57
1.8
to
3.6
3.3
−40 t
o +85
100
100
Sle
ep m
ode,
Low
bat
tery
indi
catio
n10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
MC
P12
58
1.8
to
3.6
3.3
−40 t
o +85
100
100
Pow
er g
ood
outp
ut,
Inpu
t/ou
tput
byp
ass
10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
MC
P12
59
1.8
to
3.6
3.3
−40 t
o +85
100
100
Low
bat
tery
indi
catio
n, In
put/
outp
ut b
ypas
s10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
not
e 1
: M
easu
red
at V
dd =
5.0
V at
25°C
and
no
load
.
Po
Wer
ma
na
gem
enT:
cP
u/s
yste
m s
uper
viso
rs
Par
t #
Vcc r
ange
(V
)
ope
ratin
g Te
mp.
ran
ge
(°c)
nom
inal
res
et V
olta
ge
(V)
res
et T
ype
out
put
Typi
cal r
eset
P
ulse
Wid
th
(ms)
Typi
cal
sup
ply
cur
rent
(µa
)a
dditi
onal
Fea
ture
sPac
kage
sB
ond
opt
ions
MC
P10
21
.0 t
o 5
.5−
40
to
+1
25
4.6
3, 4
.38
, 3
.08
, 2.9
3,
2.6
3, 2
.32
, 1
.9Ac
tive-
Low
CM
OS
Pus
h-Pu
ll120
13-p
in S
OT-
23B
, 3-p
in
SC
-70,
3-p
in T
O-9
2N
/A
MC
P10
31
.0 t
o 5
.5−
40
to
+1
25
4.6
3, 4
.38
, 3
.08
, 2.9
3,
2.6
3, 2
.32
, 1
.9Ac
tive-
Low
CM
OS
Pus
h-Pu
ll120
1M
ax. 809 P
inou
t3-p
in S
OT-
23B
, 3-p
in
SC
-70,
3-p
in T
O-9
2N
/A
MC
P12
11
.0 t
o 5
.5−
40
to
+1
25
4.6
3, 4
.38
, 3
.08
, 2.9
3,
2.6
3, 2
.32
, 1
.9Ac
tive-
Low
Ope
n-D
rain
120
13-p
in S
OT-
23B
, 3-p
in
SC
-70,
3-p
in T
O-9
2N
/A
MC
P13
11
.0 t
o 5
.5−
40
to
+1
25
4.6
3, 4
.38
, 3
.08
, 2.9
3,
2.6
3, 2
.32
, 1
.9Ac
tive-
Low
Ope
n-D
rain
120
1100 k
W In
tern
al P
ull-u
p R
esis
tor
3-p
in S
OT-
23B
, 3-p
in
SC
-70,
3-p
in T
O-9
2N
/A
MC
P13
16
1.0
to
5.5
−4
0 t
o +
12
54
.6, 2
.9(1
)Ac
tive-
Low
CM
OS
Pus
h-Pu
ll200
5W
atch
dog
Inpu
t (W
DI),
Tim
e-ou
t = 1
.6 s
ec.,
M
anua
l Res
et5-p
in S
OT-
23
N/A
MC
P13
17
1.0
to
5.5
−4
0 t
o +
12
54
.6, 2
.9(1
)Ac
tive-
Hig
hC
MO
S P
ush-
Pull
200
5W
atch
dog
Inpu
t (W
DI),
Tim
e-ou
t = 1
.6 s
ec.,
M
anua
l Res
et5-p
in S
OT-
23
N/A
MC
P13
18
1.0
to
5.5
−4
0 t
o +
12
54
.6, 2
.9(1
)Ac
tive-
Low
/H
igh
CM
OS
Pus
h-Pu
ll200
5W
atch
dog
Inpu
t (W
DI),
Tim
e-ou
t = 1
.6 s
ec.
5-p
in S
OT-
23
N/A
MC
P13
19
1.0
to
5.5
−4
0 t
o +
12
54
.6, 2
.9(1
)Ac
tive-
Low
/H
igh
CM
OS
Pus
h-Pu
ll200
1M
anua
l Res
et5-p
in S
OT-
23
N/A
MC
P13
20
1.0
to
5.5
−4
0 t
o +
12
54
.6, 2
.9(1
)Ac
tive-
Low
Ope
n-D
rain
200
5W
atch
dog
Inpu
t (W
DI),
Tim
e-ou
t = 1
.6 s
ec.,
M
anua
l Res
et5-p
in S
OT-
23
N/A
MC
P13
21
1.0
to
5.5
−4
0 t
o +
12
54
.6, 2
.9(1
)Ac
tive-
Low
Ope
n-D
rain
/C
MO
S P
ush-
Pull
200
5W
atch
dog
Inpu
t (W
DI),
Tim
e-ou
t = 1
.6 s
ec.,
M
anua
l Res
et (
Activ
e-Lo
w O
pen-
Dra
in,
Ac
tive-
Hig
h Pu
sh-P
ull)
5-p
in S
OT-
23
N/A
TC12
70
A1
.0 t
o 5
.5−
40
to
+1
25
4.6
3, 4
.38
, 3
.08
, 2.9
3,
2.6
3Ac
tive-
Low
CM
OS
Pus
h-Pu
ll280
7M
anua
l Res
et4-p
in S
OT-
143,
5-p
in S
OT-
23
N/A
13Analog & Interface Product Selector Guide
Po
Wer
ma
na
gem
enT:
cP
u/s
yste
m s
uper
viso
rs (
con
tinue
d)
Par
t #
Vcc r
ange
(V
)
ope
ratin
g Te
mp.
ran
ge
(°c)
nom
inal
res
et V
olta
ge
(V)
res
et T
ype
out
put
Typi
cal r
eset
P
ulse
Wid
th
(ms)
Typi
cal
sup
ply
cur
rent
(µa
)a
dditi
onal
Fea
ture
sPac
kage
sB
ond
opt
ions
TC12
71
A1
.0 t
o 5
.5−
40
to
+1
25
4.6
3, 4
.38
, 3
.08, 2.9
3,
2.6
3Ac
tive-
Hig
hC
MO
S P
ush-
Pull
280
7M
anua
l Res
et4-p
in S
OT-
143,
5-p
in
SO
T-23
N/A
TC12
70
AN1
.0 t
o 5
.5−
40
to
+1
25
4.6
3, 4
.38
, 3
.08, 2.9
3,
2.6
3Ac
tive-
Low
Ope
n-D
rain
07
Man
ual R
eset
4-p
in S
OT-
143,
5-p
in
SO
T-23
N/A
TCM
80
91
.2 t
o 5
.5−
40
to
+8
54
.63
, 4
.38
, 4
.00, 3.0
8,
2.9
3, 2
.63
, 2
.32
Activ
e-Lo
wC
MO
S P
ush-
Pull
240
12
3-p
in S
OT-
23B
, 3-p
in
SC
-70
N/A
TCM
81
01
.2 t
o 5
.5−
40
to
+8
54
.63
, 4
.38
, 4
.00, 3.0
8,
2.9
3, 2
.63
, 2
.32
Activ
e-H
igh
CM
OS
Pus
h-Pu
ll240
12
3-p
in S
OT-
23B
, 3-p
in
SC
-70
N/A
MC
P10
01
.0 t
o 5
.5−
40
to
+8
54
.72
, 4
.62
, 4
.47, 4.3
7,
3.0
75
, 2
.92
, 2
.62
Activ
e-Lo
wC
MO
S P
ush-
Pull
350
45
3-p
in T
O-9
2,
3-p
in
SO
T-23B
D, H
MC
P80
91
.0 t
o 5
.5−
40
to
+8
54
.72
, 4
.62
, 4
.47, 4.3
7,
3.0
75
, 2
.92
, 2
.62
Activ
e-Lo
wC
MO
S P
ush-
Pull
350
45
3-p
in S
OT-
23B
N/A
MC
P10
11
.0 t
o 5
.5−
40
to
+8
54
.72
, 4
.62
, 4
.47, 4.3
7,
3.0
75
, 2
.92
, 2
.62
Activ
e-H
igh
CM
OS
Pus
h-Pu
ll350
45
3-p
in T
O-9
2,
3-p
in
SO
T-23B
D, H
MC
P81
01
.0 t
o 5
.5−
40
to
+8
54
.72
, 4
.62
, 4
.47, 4.3
7,
3.0
75
, 2
.92
, 2
.62
Activ
e-H
igh
CM
OS
Pus
h-Pu
ll350
45
3-p
in S
OT-
23B
N/A
MC
P12
01
.0 t
o 5
.5−
40
to
+8
54
.72
, 4
.62
, 4
.47, 4.3
7,
3.0
75
, 2
.92
, 2
.62
Activ
e-Lo
wO
pen-
Dra
in350
45
3-p
in T
O-9
2,
3-p
in
SO
T-23,
8-p
in S
OIC
D, G
, H
MC
P13
01
.0 t
o 5
.5−
40
to
+8
54
.72
, 4
.62
, 4
.47, 4.3
7,
3.0
75
, 2
.92
, 2
.62
Activ
e-Lo
wO
pen-
Dra
in
w/5
kO
hm
Pull-
up350
45
3-p
in T
O-9
2,
3-p
in
SO
T-23,
8-p
in S
OIC
D, F
, H
TC12
32
4.5
to
5.5
−4
0 t
o +
85
4.6
2, 4
.37
Activ
e-Lo
w/H
igh
Ope
n-D
rain
610
50
Wat
chdo
g Ti
mer
8-p
in P
DIP
, 8-p
in
SO
IC,
16-p
in S
OIC
N/A
TC32
M4
.5 t
o 5
.5−
40
to
+8
54
.5Ac
tive-
Low
Ope
n-D
rain
700
50
Wat
chdo
g Ti
mer
3-p
in T
O-9
2,
3-p
in
SO
T-223
N/A
not
e 1
: O
ther
res
et v
olta
ge o
ptio
ns a
vaila
ble:
2.0
V to
4.7
V in
100 m
V in
crem
ents
. C
onta
ct lo
cal M
icro
chip
sal
es o
ffic
e.
Po
Wer
ma
na
gem
enT:
Vol
tage
det
ecto
rs
Par
t #
Vcc r
ange
(V
)
ope
ratin
g Te
mp.
ran
ge
(°c)
nom
inal
res
et
Volta
ge (
V)r
eset
Typ
eo
utpu
tm
inim
um
res
et P
ulse
W
idth
(m
s)
Typi
cal
sup
ply
cur
rent
(µa
)Fe
atur
esPac
kage
s
MC
P11
11
.0 t
o 5
.5−
40
to
+1
25
4.6
3, 4
.38
, 3
.08
, 2.9
3,
2.6
3, 2
.32
, 1
.90
Activ
e-Lo
wO
pen-
Dra
in–
13-p
in S
OT-
23B
, 3-p
in T
O-9
2,
3-p
in S
C-7
0,
3-p
in S
OT-
89
MC
P11
21
.0 t
o 5
.5−
40
to
+1
25
4.6
3, 4
.38
, 3
.08
, 2.9
3,
2.6
3, 2
.32
, 1
.90
Activ
e-Lo
wC
MO
S P
ush-
Pull
–1
3-p
in S
OT-
23B
, 3-p
in T
O-9
2,
3-p
in S
C-7
0,
3-p
in S
OT-
89
TC52
1.5
to
10
−4
0 t
o +
85
4.5
/2.7
, 3
.0/2
.7Ac
tive-
Low
Ope
n-D
rain
–2
Dua
l cha
nnel
5-p
in S
OT-
23A
TC54
0.7
to
10
−4
0 t
o +
85
4.3
, 4
.2, 3
.0, 2
.9, 2.7
, 2
.1, 1
.4Ac
tive-
Low
CM
OS
Pus
h-Pu
ll or
Ope
n-D
rain
–1
3-p
in S
OT-
23A,
3-p
in S
OT-
89,
3-p
in T
O-9
2
Po
Wer
ma
na
gem
enT:
Pow
er m
osFe
T d
rive
rs
Par
t #
con
figur
atio
no
pera
ting
Tem
p.
ran
ge (
°c)
Pea
k o
utpu
t cur
rent
(a
)
out
put
res
ista
nce
(rh/r
l)
(max
. W @
25
°c)
max
imum
sup
ply
Volta
ge (
V)In
put/
out
put
del
ay
(td1
, td2
)(1) (
ns)
Pac
kage
s
low
-sid
e d
rive
rs, 0
.5a
to
1.2
a P
eak
out
put
cur
rent
MC
P14
01
Sin
gle,
Inve
rtin
g−40 t
o +125
0.5
18/1
618
40/4
05-p
in S
OT-
23
MC
P14
02
Sin
gle,
Non
-inve
rtin
g−40 t
o +125
0.5
18/1
618
40/4
05-p
in S
OT-
23
TC14
10
Sin
gle,
Inve
rtin
g−40 t
o +85
0.5
22/2
216
30/3
08-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC14
10
NS
ingl
e, N
on-in
vert
ing
−40 t
o +85
0.5
22/2
216
30/3
08-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC14
11
Sin
gle,
Inve
rtin
g−40 t
o +85
1.0
11/1
116
30/3
08-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC14
11
NS
ingl
e, N
on-in
vert
ing
−40 t
o +85
1.0
11/1
116
30/3
08-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC14
26
Dua
l, In
vert
ing
0 t
o +70
1.2
18/1
816
75/7
58-p
in P
DIP
, 8-p
in S
OIC
not
e 1
: td
1 =
del
ay t
ime
from
inpu
t lo
w-to
-hig
h tr
ansi
tion
to o
utpu
t tr
ansi
tion.
td2
= d
elay
tim
e fr
om in
put
high
-to-lo
w t
rans
ition
to
outp
ut t
rans
ition
.
14 Analog & Interface Product Selector Guide
Po
Wer
ma
na
gem
enT:
Pow
er m
osFe
T d
rive
rs (
con
tinue
d)
Par
t #
con
figur
atio
no
pera
ting
Tem
p.
ran
ge (
°c)
Pea
k o
utpu
t cur
rent
(a
)
out
put
res
ista
nce
(rh/r
l)
(max
. W @
25
°c)
max
imum
sup
ply
Volta
ge (
V)In
put/
out
put
del
ay
(td1
, td2
)(1) (
ns)
Pac
kage
s
low
-sid
e d
rive
rs, 0
.5a
to
1.2
a P
eak
out
put
cur
rent
(con
tinue
d)
TC14
27
Dua
l, N
on-in
vert
ing
0 t
o +70
1.2
18/1
816
75/7
58-p
in P
DIP
, 8-p
in S
OIC
TC14
28
Dua
l, In
vert
ing
and
Non
-inve
rtin
g0 t
o +70
1.2
18/1
816
75/7
58-p
in P
DIP
, 8-p
in S
OIC
TC44
67
Qua
d, In
vert
ing
−40 t
o +85
1.2
15/1
518
40/4
014-p
in P
DIP
, 16-p
in S
OIC
(W
)
TC44
68
Qua
d, N
on-in
vert
ing
−40 t
o +85
1.2
15/1
518
40/4
014-p
in P
DIP
, 16-p
in S
OIC
(W
)
TC44
69
Qua
d, N
on-in
vert
ing
−40 t
o +85
1.2
15/1
518
40/4
014-p
in P
DIP
, 16-p
in S
OIC
(W
)
low
-sid
e d
rive
rs, 1
.5a
Pea
k o
utpu
t cur
rent
MC
P14
15
Sin
gle,
Inve
rtin
g−40 t
o +125
1.5
7.5
/5.5
18
50/5
55-p
in S
OT-
23
MC
P14
16
Sin
gle,
Non
-inve
rtin
g−40 t
o +125
1.5
7.5
/5.5
18
50/5
55-p
in S
OT-
23
TC44
03
Sin
gle,
Non
-inve
rtin
g Fl
oatin
g Lo
ad D
river
−40 t
o +85
1.5
5/5
18
33/3
88-p
in P
DIP
TC44
04
Dua
l, In
vert
ing
−40 t
o +85
1.5
10/1
018
15/3
28-p
in P
DIP
, 8-p
in S
OIC
TC44
05
Dua
l, N
on-in
vert
ing
−40 t
o +85
1.5
10/1
018
15/3
28-p
in P
DIP
, 8-p
in S
OIC
TC44
26
AD
ual,
Inve
rtin
g−40 t
o +125
1.5
9/9
18
30/3
08-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in D
FN
TC44
27
AD
ual,
Non
-inve
rtin
g−40 t
o +125
1.5
9/9
18
30/3
08-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in D
FN
TC44
28
AD
ual,
Inve
rtin
g an
d N
on-in
vert
ing
−40 t
o +125
1.5
9/9
18
30/3
08-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in D
FN
TC44
26
Dua
l, In
vert
ing
−40 t
o +125
1.5
10/1
018
20/4
08-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in D
FN,
8-p
in M
SO
P
TC44
27
Dua
l, N
on-in
vert
ing
−40 t
o +125
1.5
10/1
018
20/4
08-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in D
FN,
8-p
in M
SO
P
TC44
28
Dua
l, In
vert
ing
and
Non
-inve
rtin
g−40 t
o +125
1.5
10/1
018
20/4
08-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in D
FN,
8-p
in M
SO
P
TC42
6D
ual,
Inve
rtin
g−40 t
o +85
1.5
15/1
018
50/7
58-p
in P
DIP
, 8-p
in S
OIC
TC42
7D
ual,
Non
-inve
rtin
g−40 t
o +85
1.5
15/1
018
50/7
58-p
in P
DIP
, 8-p
in S
OIC
TC42
8D
ual,
Inve
rtin
g an
d N
on-in
vert
ing
−40 t
o +85
1.5
15/1
018
50/7
58-p
in P
DIP
, 8-p
in S
OIC
TC14
12
Sin
gle,
Inve
rtin
g−40 t
o +85
26/6
16
35/3
58-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC14
12
NS
ingl
e, N
on-in
vert
ing
−40 t
o +85
26/6
16
35/3
58-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P14
E6D
ual,
Inve
rtin
g−40 t
o +125
22.2
/2.8
18
45/4
58-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in D
FN
MC
P14
E7D
ual,
Non
-inve
rtin
g−40 t
o +125
22.2
/2.8
18
45/4
58-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in D
FN
MC
P14
E8D
ual,
Inve
rtin
g an
d N
on-in
vert
ing
−40 t
o +125
22.2
/2.8
18
45/4
58-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in D
FN
MC
P14
E9D
ual,
Inve
rtin
g−40 t
o +125
32.2
/2.8
18
75/7
58-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in D
FN
MC
P14
E10
Dua
l, N
on-in
vert
ing
−40 t
o +125
32.2
/2.8
18
75/7
58-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in D
FN
MC
P14
E11
Dua
l, In
vert
ing
and
Non
-inve
rtin
g−40 t
o +125
32.2
/2.8
18
75/7
58-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in D
FN
low
-sid
e d
rive
rs, 2
.0a
to
12
.0a
Pea
k o
utpu
t cur
rent
TC141
3S
ingl
e, In
vert
ing
−40 t
o +85
34/4
16
35/3
58-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC14
13
NS
ingl
e, N
on-in
vert
ing
−40 t
o +85
34/4
16
35/3
58-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
TC44
23
AD
ual,
Inve
rtin
g−40 t
o +125
33 (ty
p)/4
(ty
p)18
40 (
typ)
/40 (
typ)
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in D
FN
TC44
24
AD
ual,
Non
-inve
rtin
g−40 t
o +125
33 (ty
p)/4
(ty
p)18
40 (
typ)
/40 (
typ)
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in D
FN
TC44
25
AD
ual,
Inve
rtin
g an
d N
on-in
vert
ing
−40 t
o +125
33 (ty
p)/4
(ty
p)18
40 (
typ)
/40 (
typ)
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in D
FN
TC44
23
Dua
l, In
vert
ing
−40 t
o +125
35/5
18
33/3
88-p
in P
DIP
, 16-p
in S
OIC
(W
), 8
-pin
DFN
TC44
24
Dua
l, N
on-in
vert
ing
−40 t
o +125
35/5
18
33/3
88-p
in P
DIP
, 16-p
in S
OIC
(W
), 8
-pin
DFN
TC44
25
Dua
l, In
vert
ing
and
Non
-inve
rtin
g−40 t
o +125
35/5
18
33/3
88-p
in P
DIP
, 16-p
in S
OIC
(W
), 8
-pin
DFN
MC
P14
E3D
ual,
Inve
rtin
g−40 t
o +125
4.0
3.5
/3.0
18
55/5
58-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in 6
× 5
DFN
MC
P14
E4D
ual,
Non
-inve
rtin
g−40 t
o +125
4.0
3.5
/3.0
18
55/5
58-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in 6
× 5
DFN
MC
P14
E5D
ual,
Inve
rtin
g an
d N
on-in
vert
ing
−40 t
o +125
4.0
3.5
/3.0
18
55/5
58-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in 6
× 5
DFN
MC
P14
03
Dua
l, In
vert
ing
−40 t
o +125
4.5
3/3
.518
48/4
88-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in 6
× 5
DFN
,
16-p
in S
OIC
not
e 1
: td
1 =
del
ay t
ime
from
inpu
t lo
w-to
-hig
h tr
ansi
tion
to o
utpu
t tr
ansi
tion.
td2
= d
elay
tim
e fr
om in
put
high
-to-lo
w t
rans
ition
to
outp
ut t
rans
ition
.
15Analog & Interface Product Selector Guide
Po
Wer
ma
na
gem
enT:
Pow
er m
osFe
T d
rive
rs (
con
tinue
d)
Par
t #
con
figur
atio
no
pera
ting
Tem
pera
ture
r
ange
(°
c)
Pea
k o
utpu
t cur
rent
(a
)
out
put
res
ista
nce
(rh/r
l)
(max
. W @
25
°c)
max
imum
sup
ply
Volta
ge (
V)In
put/
out
put
del
ay
(td1
, td2
)(1) (
ns)
Pac
kage
s
low
-sid
e d
rive
rs, 2
.0a
to
12
.0a
Pea
k o
utpu
t cur
rent
(con
tined
)
MC
P14
04
Dua
l, N
on-in
vert
ing
−4
0 t
o +
125
4.5
3/3
.518
48/4
88-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in 6
× 5
DFN
, 16-p
in S
OIC
MC
P14
05
Dua
l, In
vert
ing
and
Non
-inve
rtin
g−
40
to
+125
4.5
3/3
.518
48/4
88-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in 6
× 5
DFN
, 16-p
in S
OIC
MC
P14
06
Sin
gle,
Inve
rtin
g−
40
to
+125
61.8
(ty
p)/2
.0 (ty
p)18
30/3
05-p
in T
O-2
20,
8-p
in P
DIP
, 8-p
in 6
× 5
DFN
, 8-p
in S
OIC
MC
P14
07
Sin
gle,
Non
-inve
rtin
g−
40
to
+125
61.8
(ty
p)/2
.0 (ty
p)18
30/3
05-p
in T
O-2
20,
8-p
in P
DIP
, 8-p
in 6
× 5
DFN
, 8-p
in S
OIC
TC42
9S
ingl
e, In
vert
ing
−4
0 t
o +
85
62.5
/2.5
18
53/6
08-p
in P
DIP
, 8-p
in D
FN,
8-p
in S
OIC
TC44
20
Sin
gle,
Non
-inve
rtin
g−
40
to
+125
62.8
/2.5
18
55/5
58-p
in P
DIP
, 8-p
in S
OIC
, 5-p
in T
O-2
20,
8-p
in D
FN
TC44
29
Sin
gle,
Inve
rtin
g−
40
to
+125
62.8
/2.5
18
55/5
58-p
in P
DIP
, 8-p
in S
OIC
, 5-p
in T
O-2
20,
8-p
in D
FN
TC44
21
Sin
gle,
Inve
rtin
g−
40
to
+125
91.4
(ty
p)/1
.718
30/3
38-p
in P
DIP
, 5-p
in T
O-2
20,
8-p
in D
FN
TC44
21
AS
ingl
e, In
vert
ing
−4
0 t
o +
125
91.2
5 (ty
p)/1
.518
38/4
28-p
in P
DIP
, 8-p
in S
OIC
, 5-p
in T
O-2
20,
8-p
in 6
× 5
DFN
TC44
22
Sin
gle,
Non
-inve
rtin
g−
40
to
+125
91.4
(ty
p)/1
.718
30/3
38-p
in P
DIP
, 5-p
in T
O-2
20,
8-p
in D
FN
TC44
22
AS
ingl
e, N
on-in
vert
ing
−4
0 t
o +
125
91.2
5 (ty
p)/1
.518
38/4
28-p
in P
DIP
, 8-p
in S
OIC
, 5-p
in T
O-2
20,
8-p
in 6
× 5
DFN
TC44
51
Sin
gle,
Inve
rtin
g−
40
to
+125
12
0.6
(ty
p)/1
.518
15/1
58-p
in S
OIC
, 8-p
in P
DIP
, 8-p
in 6
× 5
DFN
, 5-p
in T
O-2
20,
5-p
in D
DPA
K
TC44
52
Sin
gle,
Non
-inve
rtin
g−
40
to
+125
12
0.6
(ty
p)/1
.518
15/1
58-p
in S
OIC
, 8-p
in P
DIP
, 8-p
in 6
× 5
DFN
, 5-p
in T
O-2
20,
5-p
in D
DPA
K
hig
h-sid
e/lo
w-s
ide
drive
rs
TC46
26
Sin
gle,
Inve
rtin
g−
40
to
+85
1.5
15/1
06
35/4
58-p
in P
DIP
, 16-p
in S
OIC
(W
)
TC46
27
Sin
gle,
Non
-inve
rtin
g−
40
to
+85
1.5
15/1
06
35/4
58-p
in P
DIP
, 16-p
in S
OIC
(W
)
TC44
31
Sin
gle,
Inve
rtin
g−
40
to
+85
1.5
10/1
030
62/7
88-p
in P
DIP
, 8-p
in S
OIC
TC44
32
Sin
gle,
Non
-inve
rtin
g−
40
to
+85
1.5
10/1
030
62/7
88-p
in P
DIP
, 8-p
in S
OIC
syn
chro
nous
Buc
k h
igh-
sid
e d
rive
rs
MC
P14
62
8D
ual,
Non
-inve
rtin
g−
40
to
+85
22.5
/2.5
5 (Vd
d),
36 (B
oot
Pin)
18/2
08-p
in S
OIC
, 8-p
in 3
× 3
DFN
MC
P14
70
0D
ual,
Non
-inve
rtin
g−
40
to
+125
22.5
/2.5
5 (Vd
d),
36 (B
oot
Pin)
25/2
58-p
in S
OIC
, 8-p
in 3
× 3
DFN
not
e 1
: td
1 =
del
ay t
ime
from
inpu
t lo
w-to
-hig
h tr
ansi
tion
to o
utpu
t tr
ansi
tion.
td2
= d
elay
tim
e fr
om in
put
high
-to-lo
w t
rans
ition
to
outp
ut t
rans
ition
.
Po
Wer
ma
na
gem
enT:
Pow
er m
osFe
Ts
Par
t #
Vds
(V)
con
figur
atio
nPol
arity
rds
(on
) @
4.5
V (m
Ω, m
ax.)
rds
(on
) @
10
V (m
Ω, m
ax.)
Qg
@ 4
.5V
(nc,
max
.)Id
(a
, max
. @
25°c
, Tca
se)
Vgs
(th)
(V,
min
.)Q
gd (
nc, T
yp.)
rg
(Ω, T
yp.)
Pac
kage
s
MC
P87
02
22
5S
ingl
eN
2.6
2.3
29
100
19
1.2
8-p
in P
DFN
MC
P87
05
02
5S
ingl
eN
65
15
100
14.7
1.1
8-p
in P
DFN
MC
P87
05
52
5S
ingl
eN
76
14
60
1.1
4.5
2.1
8-p
in P
DFN
Po
Wer
ma
na
gem
enT:
Bat
tery
cha
rger
s
Par
t #
mod
ecel
l Typ
e#
of
cel
lsVc
c r
ange
(V)
cel
l Vol
tage
(V)
max
imum
cha
rgin
g cur
rent
(m
a)
max
. Vol
tage
r
egul
atio
n (%
)
Int/
ext
FeT
Feat
ures
Pac
kage
s
MC
P73
11
3Li
near
Li-io
n/Li
-Pol
ymer
14
to
16
4.1
, 4.2
, 4.3
5, 4
.41100
±0.5
Int
6.5
V O
verv
olta
ge P
rote
ctio
n10-p
in 3
× 3
DFN
MC
P73
11
4Li
near
Li-io
n/Li
-Pol
ymer
14
to
16
4.1
, 4.2
, 4.3
5, 4
.41100
±0.5
Int
5.8
V O
verv
olta
ge P
rote
ctio
n10-p
in 3
× 3
DFN
MC
P73
12
3Li
near
LiFe
PO4
14
to
16
3.6
1100
±0.5
Int
6.5
V O
verv
olta
ge P
rote
ctio
n, L
iFeP
O4 c
harg
ing
10-p
in 3
× 3
DFN
MC
P73
21
3Li
near
Li-io
n/Li
-Pol
ymer
24
to
16
8.2
, 8.4
, 8.7
, 8.8
1100
±0.6
Int
13V
Ove
rvol
tage
Pro
tect
ion
10-p
in 3
× 3
DFN
MC
P73
22
3Li
near
LiFe
PO4
24
to
16
7.2
1100
±0.6
Int
13V
Ove
rvol
tage
Pro
tect
ion,
LiF
ePO
4 c
harg
ing
10-p
in 3
× 3
DFN
MC
P73
82
6Li
near
Li-Io
n/Li
-Pol
ymer
14
.5 t
o 5
.54.1
, 4.2
N/A
±1.0
Ext
Sm
all s
ize,
cha
rge
curr
ent
set
by e
xter
nal F
ET6-p
in S
OT-
23
MC
P73
82
7Li
near
Li-Io
n/Li
-Pol
ymer
14
.5 t
o 5
.54.1
, 4.2
N/A
±1.0
Ext
Mod
e in
dica
tor,
Cha
rge
curr
ent
mon
itor,
Cha
rge
curr
ent
set
by e
xter
nal F
ET8-p
in M
SO
P
MC
P73
82
8Li
near
Li-Io
n/Li
Pol
ymer
14
.5 t
o 5
.54.1
, 4.2
N/A
±1.0
Ext
Tem
pera
ture
mon
itor,
Cha
rge
curr
ent
set
by e
xter
nal F
ET8-p
in M
SO
P
MC
P73
84
1Li
near
Li-Io
n/Li
-Pol
ymer
14
.5 t
o 1
24.1
, 4.2
N/A
±0.5
Ext
Saf
ety
char
ge tim
ers,
Tem
pera
ture
mon
itor, C
harg
e cu
rren
t se
t by
ext
erna
l FET
10-p
in M
SO
P
16 Analog & Interface Product Selector Guide
Po
Wer
ma
na
gem
enT:
Bat
tery
cha
rger
s (c
ontin
ued)
Par
t #
mod
ecel
l Typ
e#
of
cel
lsVc
c r
ange
(V)
cel
l Vol
tage
(V)
max
imum
cha
rgin
g cur
rent
(m
a)
max
. Vol
tage
r
egul
atio
n (%
)
Int/
ext
FeT
Feat
ures
Pac
kage
s
MC
P73
84
1Li
near
Li-Io
n/Li
-Pol
ymer
14
.5 t
o 12
4.1
, 4.2
N/A
±0.5
Ext
Saf
ety
char
ge t
imer
s, T
empe
ratu
re m
onito
r,
Cha
rge
curr
ent
set
by e
xter
nal F
ET10-p
in M
SO
P
MC
P73
84
2Li
near
Li-Io
n/Li
-Pol
ymer
28
.7 t
o 12
8.2
, 8.4
N/A
±0.5
Ext
Saf
ety
char
ge t
imer
s, T
empe
ratu
re m
onito
r,
Cha
rge
curr
ent
set
by e
xter
nal F
ET10-p
in M
SO
P
MC
P73
84
3Li
near
Li-Io
n/Li
-Pol
ymer
14
.5 t
o 12
4.1
, 4.2
N/A
±0.5
Ext
Saf
ety
char
ge t
imer
s, C
harg
e cu
rren
t se
t by
ext
erna
l FET
8-p
in M
SO
P
MC
P73
84
4Li
near
Li-Io
n/Li
-Pol
ymer
28
.7 t
o 12
8.2
, 8.4
N/A
±0.5
Ext
Saf
ety
char
ge t
imer
s, C
harg
e cu
rren
t se
t by
ext
erna
l FET
8-p
in M
SO
P
MC
P73
81
1Li
near
Li-Io
n/Li
-Pol
ymer
13
.7 t
o 6.0
4.2
500
±1.0
Int
Sel
ecta
ble
char
ge c
urre
nt (
100 m
A, 5
00 m
A),
C
harg
e en
able
inpu
t5-p
in S
OT-
23
MC
P73
81
2Li
near
Li-Io
n/Li
Pol
ymer
13
.7 t
o 6.0
4.2
500
±1.0
Int
Prog
ram
mab
le c
harg
e cu
rren
t (1
00 m
A, 5
00 m
A),
C
harg
e en
able
inpu
t5-p
in S
OT-
23
MC
P73
83
0/L
Line
arLi
-Ion/
Li-P
olym
er1
3.7
5 t
o 6.0
4.2
1000/2
00
±0.7
5In
tS
oft-s
tart
, C
harg
e en
able
pin
6-p
in 2
× 2
TD
FN
MC
P73
83
1Li
near
Li-Io
n/Li
-Pol
ymer
13
.7 t
o 6.0
4.2
, 4.3
5, 4
.4, 4
.5500
±0.7
5In
tU
VLO
, Th
erm
al r
egul
atio
n, P
rogr
amm
able
cha
rge
curr
ent,
Tr
i-sta
te S
TAT
pin
5-p
in S
OT-
23,
8-p
in
2 ×
3 D
FN
MC
P73
83
2Li
near
Li-Io
n/Li
-Pol
ymer
13
.7 t
o 6.0
4.2
, 4.3
5, 4
.4, 4
.5500
±0.7
5In
tU
VLO
, Th
erm
al r
egul
atio
n, P
rogr
amm
able
cha
rge
curr
ent,
O
pen-
drai
n S
TAT
pin
5-p
in S
OT-
23,
8-p
in
2 ×
3 D
FN
MC
P73
85
3Li
near
Li-Io
n/Li
-Pol
ymer
14
.5 t
o 5.5
4.1
, 4.2
500
±0.5
Int
US
B c
ontr
ol,
Saf
ety
char
ge t
imer
s, T
empe
ratu
re m
onito
r,
Ther
mal
reg
ulat
ion
16-p
in 4
× 4
QFN
MC
P73
85
5Li
near
Li-Io
n/Li
-Pol
ymer
14
.5 t
o 5.5
4.1
, 4.2
500
±0.5
Int
US
B c
ontr
ol,
Saf
ety
char
ge t
imer
s, T
herm
al r
egul
atio
n10-p
in 3
× 3
DFN
MC
P73
83
3Li
near
Li-Io
n/Li
-Pol
ymer
13
.7 t
o 6.0
4.2
, 4.3
5, 4
.4, 4
.51000
±0.7
5In
tU
VLO
, Th
erm
al r
egul
atio
n, T
herm
isto
r in
put,
LD
O T
est
mod
e,
Mul
tiple
Vr
eg o
utpu
ts,
Saf
ety
timer
, Po
wer
goo
d ou
tput
10-p
in 3
× 3
DFN
,
10-p
in M
SO
P
MC
P73
83
4Li
near
Li-Io
n/Li
-Pol
ymer
13
.7 t
o 6.0
4.2
, 4.3
5, 4
.4, 4
.51000
±0.7
5In
tU
VLO
, Th
erm
al r
egul
atio
n, T
herm
isto
r in
put,
LD
O T
est
mod
e,
Mul
tiple
Vre
g ou
tput
s, S
afet
y tim
er,
Tim
er e
nabl
e in
put
10-p
in 3
× 3
DFN
,
10-p
in M
SO
P
MC
P73
83
7Li
near
Li-Io
n/Li
-Pol
ymer
13
.7 t
o 6.0
4.2
, 4.3
5, 4
.4, 4
.51000
±0.7
5In
tD
ual i
nput
(U
SB
, D
C in
put
from
ada
pter
) au
to-s
witc
hing
, U
VLO
, Th
erm
al r
egul
atio
n, T
herm
isto
r in
put,
Pow
er g
ood
outp
ut10-p
in 3
× 3
DFN
,
10-p
in M
SO
P
MC
P73
83
8Li
near
Li-Io
n/Li
Pol
ymer
13
.7 t
o 6.0
4.2
, 4.3
5, 4
.4, 4
.51000
±0.7
5In
tD
ual i
nput
(U
SB
, D
C in
put
from
ada
pter
) au
to-s
witc
hing
, U
VLO
, Th
erm
al r
egul
atio
n, T
imer
ena
ble
inpu
t10-p
in 3
× 3
DFN
,
10-p
in M
SO
P
MC
P73
87
1Li
near
Li-Io
n/Li
-Pol
ymer
13
.75 t
o 6.0
4.1
, 4.2
, 4.3
5, 4
.41500 (A/
C
Adap
ter)
500 (U
SB
)±0.5
Int
Sim
ulta
neou
s ch
argi
ng o
f lo
ad a
nd b
atte
ry,
Load
-dep
ende
nt
char
ging
, M
ultip
le p
rogr
amm
able
cha
rge
curr
ents
20-p
in 4
× 4
QFN
,
20-p
in S
SO
P
Po
Wer
ma
na
gem
enT:
hot
sw
ap c
ontr
olle
rs
Par
t #
num
ber
of o
utpu
tsVp
os t
o Vn
eg
diff
eren
tial V
olta
ge
(V)
Junc
tion
Tem
pera
ture
r
ange
(°
c)
oVl
ou
Vlo
Pow
er g
ood
Int/
ext
FeT
app
licat
ions
Pac
kage
s
MC
P18
48
01
−0
.3 t
o +
15
.0−40 t
o +85
Adju
stab
leAd
just
able
Adju
stab
leEx
t−48V
Tele
com
/Dat
acom
, B
us/B
ackp
lane
20-p
in S
SO
P
lIn
ear
lIn
ear
: o
p a
mps
Par
t #
# p
er
Pac
kage
gB
WP
Iq T
ypic
al
(µa
)Vo
s m
ax
(mV)
Typi
cal I
nput
B
ias
cur
rent
(p
a)
Inpu
t Vo
ltage
n
oise
den
sity
(n
V/rt
hz)
ope
ratin
g Vo
ltage
(V)
Tem
pera
ture
r
ange
(°
c)
Feat
ures
Pac
kage
s
MC
P64
41
19
kH
z0
.45
4.5
1190
(1)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t5-p
in S
OT-
23
(S) ,
5-p
in S
C-7
0(S
)
MC
P64
42
29
kH
z0
.45
4.5
1190
(1)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
2 ×
3 T
DFN
MC
P64
44
49
kH
z0
.45
4.5
1190
(1)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P60
31
11
0 k
Hz
0.9
0.1
51
165
(1)
1.8
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
2 ×
3 D
FN, 5-p
in S
OT-
23
MC
P60
32
21
0 k
Hz
0.9
0.1
51
165
(1)
1.8
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
, 8-p
in M
SO
P
MC
P60
33
11
0 k
Hz
0.9
0.1
51
165
(1)
1.8
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, C
hip
sele
ct8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
2 ×
3 D
FN
MC
P60
34
41
0 k
Hz
0.9
0.1
51
165
(1)
1.8
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P60
41
11
4 k
Hz
0.6
31
170
(1)
1.4
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 5
-pin
SO
T-23
(S)
lege
nd:
S =
Sta
ndar
d Pi
nout
; R
= R
ever
se P
inou
t; U
= A
ltern
ativ
e Pi
nout
n
ote
1:
Valu
es a
re t
ypic
al a
t 1 k
Hz
2:
Valu
es a
re t
ypic
al a
t 10 k
Hz
17Analog & Interface Product Selector Guide
lIn
ear
: o
p a
mps
(con
tinue
d)
Par
t #
# p
er
Pac
kage
gB
WP
Iq
Typi
cal
(µa
)
Vos
max
(m
V)
Typi
cal I
nput
B
ias
cur
rent
(p
a)
Inpu
t Vo
ltage
n
oise
den
sity
(n
V/rt
hz)
ope
ratin
g Vo
ltage
(V)
Tem
pera
ture
r
ange
(°
c)
Feat
ures
Pac
kage
s
MC
P60
42
21
4 k
Hz
0.6
31
170
(1)
1.4
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P60
43
11
4 k
Hz
0.6
31
170
(1)
1.4
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, C
hip
sele
ct8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 6
-pin
SO
T-23
(S)
MC
P60
44
41
4 k
Hz
0.6
31
170
(1)
1.4
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P61
41
11
00
kH
z0
.63
1170
(1)
1.4
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, G
>10 s
tabl
e5-p
in S
OT-
23
(S) ,
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P61
42
21
00
kH
z0
.63
1170
(1)
1.4
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, G
>10 s
tabl
e8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P61
43
11
00
kH
z0
.63
1170
(1)
1.4
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, G
>10 s
tabl
e,
Chi
p se
lect
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 6
-pin
SO
T-23
(S)
MC
P61
44
41
00
kH
z0
.63
1170
(1)
1.4
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, G
>10 s
tabl
e14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P60
61
15
5 k
Hz
19
0.2
51
38
(1)
2.5
to
6.0
−40 t
o +85
Rai
l-to-
Rai
l Out
put
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in T
SS
OP,
5-p
in S
OT2
3(S
)
MC
P60
72
15
5 k
Hz
19
0.2
51
38
(1)
2.5
to
6.0
−40 t
o +85
Rai
l-to-
Rai
l Out
put
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in T
SS
OP
MC
P60
81
15
5 k
Hz
19
0.2
51
38
(1)
2.5
to
6.0
−40 t
o +85
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in T
SS
OP
MC
P60
94
15
5 k
Hz
19
0.2
51
38
(1)
2.5
to
6.0
−40 t
o +85
Rai
l-to-
Rai
l Out
put
14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P61
61
19
0 k
Hz
19
0.1
51
50
00
32
(1)
2.3
to
5.5
−40 t
o +85
Rai
l-to-
Rai
l Out
put,
PN
P in
put
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P61
72
19
0 k
Hz
19
0.1
51
50
00
32
(1)
2.3
to
5.5
−40 t
o +85
Rai
l-to-
Rai
l Out
put,
PN
P in
put
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P61
81
19
0 k
Hz
19
0.1
51
50
00
32
(1)
2.3
to
5.5
−40 t
o +85
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
, PN
P in
put
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P61
94
19
0 k
Hz
19
0.1
51
50
00
32
(1)
2.3
to
5.5
−40 t
o +85
Rai
l-to-
Rai
l Out
put,
PN
P in
put
14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P62
31
13
00
kH
z2
05
152
(1)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
2 ×
3
TDFN
, 5-p
in S
C-7
0(U
) , 5-p
in S
OT-
23
(S,
R,
U)
MC
P62
32
23
00
kH
z2
05
1
52
(1)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
2 ×
3 T
DFN
MC
P62
34
43
00
kH
z2
05
152
(1)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P60
51
13
85
kH
z3
00
.15
134
(2)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
, 8-p
in 2
× 3
DFN
, 5-p
in S
OT-
23(S
)
MC
P60
52
23
85
kH
z3
00
.15
134
(2)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
, 8-p
in 2
× 3
DFN
MC
P60
54
43
85
kH
z3
00
.15
134
(2)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P62
41
15
50
kH
z5
05
145
(1)
1.8
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
2 ×
3
TDFN
, 5-p
in S
C-7
0(U
) , 5-p
in S
OT-
23
(S ,
R,
U)
MC
P62
42
25
50
kH
z5
05
145
(1)
1.8
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P62
44
45
50
kH
z5
05
145
(1)
1.8
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P60
61
17
30
kH
z6
00
.15
125
(2)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
, 8-p
in 2
× 3
DFN
, 5-p
in S
OT-
23
(S)
MC
P60
62
27
30
kH
z6
00
.15
125
(2)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
, 8-p
in 2
× 3
DFN
MC
P60
64
47
30
kH
z6
00
.15
125
(2)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P60
01
11
MH
z1
00
4.5
128
(1)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t5-p
in S
OT-
23
(S,
R,
U) ,
5-p
in S
C-7
0(R
)
MC
P60
02
21
MH
z1
00
4.5
128
(1)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
2 ×
3 D
FN
MC
P60
04
41
MH
z1
00
4.5
128
(1)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P64
01
11
MH
z4
54
.51
28
(1)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t5-p
in S
OT-
23
(S,
R,
U) ,
5-p
in S
C-7
0(R
)
MC
P64
02
21
MH
z4
54
.51
28
(1)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN
MC
P64
04
41
MH
z4
54
.51
28
(1)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P6L0
11
1 M
Hz
85
52
24
(2)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t5-p
in S
OT-
23
(S,
R,
U) ,
5-p
in S
C-7
0(S
)
MC
P6L0
22
1 M
Hz
85
52
24
(2)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
, 8-p
in M
SO
P
MC
P6L0
44
1 M
Hz
85
52
24
(2)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P60
71
11
.2 M
Hz
11
00
.15
119
(2)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
, 8-p
in 2
× 3
DFN
, 5-p
in S
OT-
23
(S)
MC
P60
72
21
.2 M
Hz
11
00
.15
119
(2)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
, 8-p
in 2
× 3
DFN
MC
P60
74
41
.2 M
Hz
11
00
.15
119
(2)
1.8
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P6H
01
11
.2 M
Hz
13
53
.51
035
(1)
Sin
gle
Sup
ply:
3.5
to
16
Dua
l Sup
ply:
±1.7
5 t
o ±8
−40 t
o +125
Rai
l-to-
Rai
l Out
put
8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN,
5-p
in S
OT-
23
(S) ,
5-p
in S
C-7
0(S
)
MC
P6H
02
21
.2 M
Hz
13
53
.51
035
(1)
Sin
gle
Sup
ply:
3.5
to
16
Dua
l Sup
ply:
±1.7
5 t
o ±8
−40 t
o +125
Rai
l-to-
Rai
l Out
put
8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN
MC
P6H
04
41
.2 M
Hz
13
53
.51
035
(1)
Sin
gle
Sup
ply:
3.5
to
16
Dua
l Sup
ply:
±1.7
5 t
o ±8
−40 t
o +125
Rai
l-to-
Rai
l Out
put
14-p
in S
OIC
, 14-p
in T
SS
OP
lege
nd:
S =
Sta
ndar
d Pi
nout
; R
= R
ever
se P
inou
t; U
= A
ltern
ativ
e Pi
nout
n
ote
1:
Valu
es a
re t
ypic
al a
t 1 k
Hz
2:
Valu
es a
re t
ypic
al a
t 10 k
Hz
18 Analog & Interface Product Selector Guide
lIn
ear
: o
p a
mps
(con
tinue
d)
Par
t #
# p
er
Pac
kage
gB
WP
Iq T
ypic
al
(µa
)Vo
s m
ax
(mV)
Typi
cal I
nput
B
ias
cur
rent
(p
a)
Inpu
t Vo
ltage
n
oise
den
sity
(n
V/rt
hz)
ope
ratin
g Vo
ltage
(V)
Tem
pera
ture
r
ange
(°
c)
Feat
ures
Pac
kage
s
MC
P62
71
12
MH
z1
70
31
20
(1)
2.0
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 5
-pin
SO
T-23
(S, R
)
MC
P62
72
22
MH
z1
70
31
20
(1)
2.0
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P62
73
12
MH
z1
70
31
20
(1)
2.0
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, C
hip
sele
ct8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 6
-pin
SO
T-23
(S)
MC
P62
74
42
MH
z1
70
31
20
(1)
2.0
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P62
75
22
MH
z1
50
3
120
(1)
2.0
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t,
Dua
l con
nect
ed,
Chi
p se
lect
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P64
71
12
MH
z1
00
11
27
(1)
2.0
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t5-p
in S
OT-
23
(S) ,
5-p
in S
C-7
0(S
)
MC
P6L7
11
2 M
Hz
15
04
119
(2)
2.0
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
(S) ,
8-p
in M
SO
P(S) ,
5-p
in S
OT-
23
(S,
R)
MC
P6L7
22
2 M
Hz
15
04
119
(2)
2.0
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
, 8-p
in M
SO
P
MC
P6L7
44
2 M
Hz
15
04
119
(2)
2.0
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P6H
71
12
.7 M
Hz
48
04
10
28
(1)
Sin
gle
Sup
ply:
3.5
to
12
Dua
l Sup
ply:
±1.7
5 t
o ±6
−40 t
o +125
Rai
l-to-
Rai
l Out
put
8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN
MC
P6H
72
22
.7 M
Hz
48
04
10
28
(1)
Sin
gle
Sup
ply:
3.5
to
12
Dua
l Sup
ply:
±1.7
5 t
o ±6
−40 t
o +125
Rai
l-to-
Rai
l Out
put
8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN
MC
P6H
74
42
.7 M
Hz
48
04
10
28
(1)
Sin
gle
Sup
ply:
3.5
to
12
Dua
l Sup
ply:
±1.7
5 t
o ±6
−40 t
o +125
Rai
l-to-
Rai
l Out
put
14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P60
11
2.8
MH
z2
30
21
29
(1)
2.7
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Out
put
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in T
SS
OP,
5-p
in S
OT-
23
(S, R
)
MC
P60
22
2.8
MH
z2
30
21
29
(1)
2.7
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Out
put
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in T
SS
OP
MC
P60
31
2.8
MH
z2
30
21
29
(1)
2.7
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in T
SS
OP,
6-p
in S
OT-
23
(S)
MC
P60
44
2.8
MH
z2
30
21
29
(1)
2.7
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Out
put
14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P6L1
12
.8 M
Hz
20
03
121
(2)
2.7
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Out
put
8-p
in S
OIC
(S) ,
8-p
in M
SO
P(S) ,
5-p
in S
OT-
23
(S,
R)
MC
P6L2
22
.8 M
Hz
20
03
121
(2)
2.7
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Out
put
8-p
in S
OIC
, 8-p
in M
SO
P
MC
P6L4
42
.8 M
Hz
20
03
121
(2)
2.7
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Out
put
14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P62
86
13
.5 M
Hz
54
01
.51
5.4
(2)
2.2
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
Low
noi
se5-p
in S
OT-
23
(S,
R)
MC
P64
81
14
MH
z2
40
11
23
(1)
2.2
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t5-p
in S
OT-
23
(S) ,
5-p
in S
C-7
0(S
)
MC
P62
81
15
MH
z4
45
31
16
(1)
2.2
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 5
-pin
SO
T-23
(S, R
)
MC
P62
82
25
MH
z4
45
31
16
(1)
2.2
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P62
83
15
MH
z4
45
31
16
(1)
2.2
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, C
hip
sele
ct8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 6
-pin
SO
T-23
(S, R
)
MC
P62
84
45
MH
z4
45
31
16
(1)
2.2
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P62
85
25
MH
z4
00
31
16
(1)
2.2
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, D
ual
conn
ecte
d, C
hip
sele
ct8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P6H
81
15
.5 M
Hz
70
04
10
23
(1)
Sin
gle
Sup
ply:
3.5
to
12
Dua
l Sup
ply:
±1.7
5 t
o ±6
−40 t
o +125
Rai
l-to-
Rai
l Out
put
8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN
MC
P6H
82
25
.5 M
Hz
70
04
10
23
(1)
Sin
gle
Sup
ply:
3.5
to
12
Dua
l Sup
ply:
±1.7
5 t
o ±6
−40 t
o +125
Rai
l-to-
Rai
l Out
put
8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN
MC
P6H
84
45
.5 M
Hz
70
04
10
23
(1)
Sin
gle
Sup
ply:
3.5
to
12
Dua
l Sup
ply:
±1.7
5 t
o ±6
−40 t
o +125
Rai
l-to-
Rai
l Out
put
14-p
in S
OIC
, 14-p
in 2
× 3
TD
FN
MC
P64
91
17
.5 M
Hz
53
01
119
(1)
2.4
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t5-p
in S
OT-
23
(S) ,
5-p
in S
C-7
0(S
)
MC
P60
21
11
0 M
Hz
10
00
0.5
18.7
(2)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, 1
/2 V
cc V
ref
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in T
SS
OP,
8-p
in M
SO
P,
5-p
in S
OT-
23
(S,
R)
MC
P60
22
21
0 M
Hz
10
00
0.5
18.7
(2)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in T
SS
OP
MC
P60
23
11
0 M
Hz
10
00
0.5
18.7
(2)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, C
hip
sele
ct,
1/2
Vc
c V
ref
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in T
SS
OP
MC
P60
24
41
0 M
Hz
10
00
0.5
18.7
(2)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P62
91
11
0 M
Hz
10
00
31
8.7
(2)
2.4
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 5
-pin
SO
T-23
(S, R
)
MC
P62
92
21
0 M
Hz
10
00
31
8.7
(2)
2.4
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
lege
nd:
S =
Sta
ndar
d Pi
nout
; R
= R
ever
se P
inou
t; U
= A
ltern
ativ
e Pi
nout
n
ote
1:
Valu
es a
re t
ypic
al a
t 1 k
Hz
2:
Valu
es a
re t
ypic
al a
t 10 k
Hz
19Analog & Interface Product Selector Guide
lIn
ear
: o
p a
mps
(con
tinue
d)
Par
t #
# p
er
Pac
kage
gB
WP
Iq T
ypic
al
(µa
)Vo
s m
ax
(mV)
Typi
cal I
nput
B
ias
cur
rent
(p
a)
Inpu
t Vo
ltage
n
oise
den
sity
(n
V/rt
hz)
ope
ratin
g Vo
ltage
(V)
Tem
pera
ture
r
ange
(°
c)
Feat
ures
Pac
kage
s
MC
P62
93
11
0 M
Hz
10
00
31
8.7
(2)
2.4
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, C
hip
sele
ct8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 6
-pin
SO
T-23
(S)
MC
P62
94
41
0 M
Hz
10
00
31
8.7
(2)
2.4
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P62
95
21
0 M
Hz
11
00
31
8.7
(2)
2.4
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, D
ual
conn
ecte
d, C
hip
sele
ct8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P6H
91
11
0 M
Hz
20
00
41
023
(1)
Sin
gle
Sup
ply:
3.5
to
12
Dua
l Sup
ply:
±1.7
5 t
o ±6
−40 t
o +125
Rai
l-to-
Rai
l Out
put
8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN
MC
P6H
92
21
0 M
Hz
20
00
41
023
(1)
Sin
gle
Sup
ply:
3.5
to
12
Dua
l Sup
ply:
±1.7
5 t
o ±6
−40 t
o +125
Rai
l-to-
Rai
l Out
put
8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN
MC
P6H
94
41
0 M
Hz
20
00
41
023
(1)
Sin
gle
Sup
ply:
3.5
to
12
Dua
l Sup
ply:
±1.7
5 t
o ±6
−40 t
o +125
Rai
l-to-
Rai
l Out
put
14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P6L9
11
10
MH
z8
50
41
9.4
(2)
2.4
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
(S) ,
8-p
in M
SO
P(S) ,
5-p
in S
OT-
23
(S,
R)
MC
P6L9
22
10
MH
z8
50
41
9.4
(2)
2.4
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
, 8-p
in M
SO
P
MC
P6L9
44
10
MH
z8
50
41
9.4
(2)
2.4
to
6.0
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P62
11
20
MH
z2
50
00
.25
13
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
,
mC
al T
echn
olog
y8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN
MC
P62
1S
12
0 M
Hz
25
00
0.2
513
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
mC
al T
echn
olog
y5-p
in S
OT-
23
(S)
MC
P62
22
20
MH
z2
50
00
.25
13
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
mC
al T
echn
olog
y8-p
in S
OIC
, 8-p
in 3
× 3
DFN
MC
P62
31
20
MH
z2
50
00
.25
13
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
,
mC
al T
echn
olog
y 6-p
in S
OT-
23
(S)
MC
P62
44
20
MH
z2
50
00
.25
13
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
mC
al T
echn
olog
y14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P62
52
20
MH
z2
50
00
.25
13
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
s,
mC
al T
echn
olog
y10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
MC
P62
94
20
MH
z2
50
00
.25
13
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
s,
mC
al T
echn
olog
y16-p
in 4
× 4
QFN
MC
P63
11
24
MH
z2
50
08
410
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put
8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN,
5-p
in S
OT-
23
(S)
MC
P63
22
24
MH
z2
50
08
410
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put
8-p
in S
OIC
, 8-p
in 3
× 3
DFN
MC
P63
31
24
MH
z2
50
08
410
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
8-p
in S
OIC
, 6-p
in S
OT-
23
MC
P63
44
24
MH
z2
50
08
410
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put
14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P63
52
24
MH
z2
50
08
410
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
s10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
MC
P63
94
24
MH
z2
50
08
410
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
s16-p
in 4
× 4
QFN
MC
P65
11
50
MH
z6
00
00
.26
7.5
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
,
mC
al T
echn
olog
y8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN
MC
P65
1S
15
0 M
Hz
60
00
0.2
67.5
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
mC
al T
echn
olog
y5-p
in S
OT-
23
(S)
MC
P65
22
50
MH
z6
00
00
.26
7.5
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
mC
al T
echn
olog
y8-p
in S
OIC
, 8-p
in 3
× 3
DFN
MC
P65
31
50
MH
z6
00
00
.26
7.5
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
,
mC
al T
echn
olog
y 6-p
in S
OT-
23
(S)
MC
P65
44
50
MH
z6
00
00
.26
7.5
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
mC
al T
echn
olog
y14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P65
52
50
MH
z6
00
00
.26
7.5
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
s,
mC
al T
echn
olog
y10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
MC
P65
94
50
MH
z6
00
00
.26
7.5
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
s,
mC
al T
echn
olog
y16-p
in 4
× 4
QFN
MC
P66
03
60
MH
z6
00
08
66.8
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put
14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P66
11
60
MH
z6
00
08
66.8
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put
8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN,
5-p
in S
OT-
23
(S)
MC
P66
22
60
MH
z6
00
08
66.8
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put
8-p
in S
OIC
, 8-p
in 3
× 3
DFN
MC
P66
31
60
MH
z6
00
08
66.8
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
8-p
in S
OIC
, 6-p
in S
OT-
23
MC
P66
44
60
MH
z6
00
08
66.8
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put
14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P66
52
60
MH
z6
00
08
66.8
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
s10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
MC
P66
94
60
MH
z6
00
08
66.8
(3)
2.5
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Out
put,
Chi
p se
lect
s16-p
in 4
× 4
QFN
lege
nd:
S =
Sta
ndar
d Pi
nout
; R
= R
ever
se P
inou
t; U
= A
ltern
ativ
e Pi
nout
n
ote
1:
Valu
es a
re t
ypic
al a
t 1 k
Hz
2:
Valu
es a
re t
ypic
al a
t 10 k
Hz
3:
Valu
es a
re t
ypic
al a
t 1 M
Hz
20 Analog & Interface Product Selector Guide
lIn
ear
: Ze
ro-d
rift
ope
ratio
nal a
mpl
ifier
s
Par
t #
# p
er
Pac
kage
gB
WP
Iq m
ax
(ma
)Vo
s m
ax
(µV)
Vos d
rift
max
(µ
V/°
c)
ope
ratin
g Vo
ltage
(V)
Tem
pera
ture
r
ange
(°
c)
Feat
ures
Pac
kage
s
MC
P6V1
11
80
kH
z0
.01
18
0.0
51.6
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t5-p
in S
OT-
23
(S,
U) ,
5-p
in S
OT-
70
(U)
MC
P6V3
11
30
0 k
Hz
0.0
34
80.0
51.8
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t5-p
in S
OT-
23
(S,
U) ,
5-p
in S
OT-
70
(U)
TC76
52
10
.4 M
Hz
35
0.0
55 t
o 16
0 t
o +70
Sin
gle
and
Spl
it S
uppl
y, L
ow N
oise
8-p
in P
DIP
, 14-p
in P
DIP
MC
P6V0
11
1.3
MH
z0
.42
0.0
51.8
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t 8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN
MC
P6V0
22
1.3
MH
z0
.42
0.0
51.8
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t 8-p
in S
OIC
, 8-p
in 4
× 4
DFN
MC
P6V0
31
1.3
MH
z0
.42
0.0
51.8
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, C
hip
sele
ct8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN
MC
P6V0
61
1.3
MH
z0
.43
0.0
51.8
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t 8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN
MC
P6V0
72
1.3
MH
z0
.43
0.0
51.8
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
, 8-p
in 4
× 4
DFN
MC
P6V0
81
1.3
MH
z0
.43
0.0
51.8
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, C
hip
sele
ct8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN
TC91
3A/
B2
1.5
MH
z1
.115
0.1
5/0
.30
7 t
o 16
0 t
o +70
Sin
gle
and
Spl
it S
uppl
y8-p
in P
DIP
, 8-p
in S
OIC
TC76
50
12
MH
z3
.55
0.0
54.5
to
16
0 t
o +70
Sin
gle
and
Spl
it S
uppl
y8-p
in P
DIP
, 14-p
in P
DIP
MC
P6V2
61
2 M
Hz
0.8
20.0
52.3
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
2 ×
3 T
DFN
MC
P6V2
72
2 M
Hz
0.8
20.0
52.3
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
4 ×
4 D
FN
MC
P6V2
81
2 M
Hz
0.8
20.0
52.3
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, C
hip
sele
ct8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
2 ×
3 T
DFN
lIn
ear
: P
rogr
amm
able
gai
n a
mpl
ifier
s (P
ga
)
Par
t #
cha
nnel
s−
3dB
BW
(m
hz)
Iq T
yp.
(ma
)Vo
s (
µV)
ope
ratin
g Vo
ltage
(V)
Tem
pera
ture
r
ange
(°
c)
Feat
ures
Pac
kage
s
MC
P6S
21
12
to
12
1.1
275
2.5
to
5.5
−40 t
o +85
SPI
, 8 G
ain
step
s, S
oftw
are
shut
dow
n8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P6S
22
22
to
12
1.1
275
2.5
to
5.5
−40 t
o +85
SPI
, 8 G
ain
step
s, S
oftw
are
shut
dow
n8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P6S
26
62
to
12
1.1
275
2.5
to
5.5
−40 t
o +85
SPI
, 8 G
ain
step
s, S
oftw
are
shut
dow
n14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P6S
28
82
to
12
1.1
275
2.5
to
5.5
−40 t
o +85
SPI
, 8 G
ain
step
s, S
oftw
are
shut
dow
n16-p
in P
DIP
, 16-p
in S
OIC
MC
P6S
91
11
to
18
1.0
4000
2.5
to
5.5
−40 t
o +125
SPI
, 8 G
ain
step
s, S
oftw
are
shut
dow
n, V
ref
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P6S
92
21
to
18
1.0
4000
2.5
to
5.5
−40 t
o +125
SPI
, 8 G
ain
step
s, S
oftw
are
shut
dow
n8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P6S
93
21
to
18
1.0
4000
2.5
to
5.5
−40 t
o +125
SPI
, 8 G
ain
step
s, S
oftw
are
shut
dow
n, V
ref
, S
O10-p
in M
SO
P
lIn
ear
: sel
ecta
ble
gai
n a
mpl
ifier
s (s
ga
)
Par
t #
cha
nnel
s−
3dB
BW
(k
hz)
Iq (
µa)
Vos (
mV)
ope
ratin
g Vo
ltage
(V)
Tem
pera
ture
r
ange
(°
c)
gai
n ste
ps
(V/V
)Fe
atur
esPac
kage
s
MC
P6G
01
19
00
11
04.5
1.8
to
5.5
−40 t
o +125
1, 1
0, 5
0Tr
i-Sta
te c
ontr
ol p
in8-p
in S
OIC
, 8-p
in M
SO
P, 5
-pin
SO
T-23
(S,
R,
U)
MC
P6G
02
29
00
11
04.5
1.8
to
5.5
−40 t
o +125
1, 1
0, 5
0Tr
i-Sta
te c
ontr
ol p
in8-p
in S
OIC
, 8-p
in M
SO
P
MC
P6G
03
19
00
11
04.5
1.8
to
5.5
−40 t
o +125
1, 1
0, 5
0Tr
i-Sta
te c
ontr
ol p
in,
Chi
p se
lect
8-p
in S
OIC
, 8-p
in M
SO
P
MC
P6G
04
49
00
11
04.5
1.8
to
5.5
−40 t
o +125
1, 1
0, 5
0Tr
i-Sta
te c
ontr
ol p
in14-p
in S
OIC
, 14-p
in T
SS
OP
lIn
ear
: In
stru
men
tatio
n a
mpl
ifier
s
Part
##
Per
Pack
age
gB
WP
Iq m
ax
(ma
)m
ax V
os
(µV)
V os
drif
t m
ax
(µV/
°c)
ope
ratin
g Vo
ltage
(V)
Tem
pera
ture
r
ange
(°c
)Fe
atur
esPa
ckag
es
MC
P6N
11
15
00
kH
z1
.1350
2.7
1.8
to
5.5
−40 t
o +125
Rai
l-to-
Rai
l Inp
ut/O
utpu
t, m
Cal
Tec
hnol
ogy
8-p
in S
OIC
, 8-p
in 2
× 3
TD
FN
lege
nd:
S =
Sta
ndar
d Pi
nout
; R
= R
ever
se P
inou
t; U
= A
ltern
ativ
e Pi
nout
21Analog & Interface Product Selector Guide
lIn
ear
: com
para
tors
Par
t #
# p
er
Pac
kage
Vref
(V
)Ty
pica
l Pro
paga
tion
del
ay (
µs)
Iq T
ypic
al
(µa
)Vo
s m
ax
(mV)
ope
ratin
g Vo
ltage
(V)
Tem
pera
ture
R
ange
(°C
)Fe
atur
esPac
kage
s
MC
P65
41
1–
41
51.6
to
5.5
−40 t
o +125
Push
-Pul
l, R
ail-t
o-R
ail I
nput
/Out
put
5-p
in S
OT-
23
(S,
R,
U) ,
5-p
in S
C-7
0(S
, U
) , 8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P65
42
2
–4
15
1.6
to
5.5
−40 t
o +125
Push
-Pul
l, R
ail-t
o-R
ail I
nput
/Out
put
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P65
43
1–
41
51.6
to
5.5
−40 t
o +125
Push
-Pul
l, R
ail-t
o-R
ail I
nput
/Out
put,
Chi
p se
lect
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P65
44
4–
41
51.6
to
5.5
−40 t
o +125
Push
-Pul
l, R
ail-t
o-R
ail I
nput
/Out
put
14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P65
46
1–
41
51.6
to
5.5
−40 t
o +125
Ope
n-dr
ain,
9V,
Rai
l-to-
Rai
l Inp
ut/O
utpu
t5-p
in S
OT-
23
(S,
R,
U) ,
5-p
in S
C-7
0(S
, U
) , 8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P65
47
2–
41
51.6
to
5.5
−40 t
o +125
Ope
n-dr
ain,
9V,
Rai
l-to-
Rai
l Inp
ut/O
utpu
t8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P65
48
1–
41
51.6
to
5.5
−40 t
o +125
Ope
n-dr
ain,
9V,
Rai
l-to-
Rai
l Inp
ut/O
utpu
t,
Chi
p se
lect
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P65
49
4–
41
51.6
to
5.5
−40 t
o +125
Ope
n-dr
ain,
9V,
Rai
l-to-
Rai
l Inp
ut/O
utpu
t14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P65
R4
11
1.2
1/2
.44
2.5
10
1.8
to
5.5
−40 t
o +125
Push
-Pul
l, R
ail-t
o-R
ail I
nput
/Out
put,
Vr
ef6-p
in S
OT-
23
MC
P65
R4
61
1.2
1/2
.44
2.5
10
1.8
to
5.5
−40 t
o +125
Ope
n D
rain
, R
ail-t
o-R
ail I
nput
/Out
put,
Vr
ef6-p
in S
OT-
23
MC
P65
61
1–
0.0
47
100
10
1.8
to
5.5
−40 t
o +125
Push
-Pul
l, R
ail-t
o-R
ail I
nput
/Out
put
5-p
in S
OT-
23
(S,
R,
U) ,
5-p
in S
C-7
0(S
)
MC
P65
62
2–
0.0
47
100
10
1.8
to
5.5
−40 t
o +125
Push
-Pul
l, R
ail-t
o-R
ail I
nput
/Out
put
8-p
in S
OIC
, 8-p
in M
SO
P
MC
P65
64
4–
0.0
47
100
10
1.8
to
5.5
−40 t
o +125
Push
-Pul
l, R
ail-t
o-R
ail I
nput
/Out
put
14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P65
66
1–
0.0
47
100
10
1.8
to
5.5
-40 t
o +125
Ope
n-D
rain
, R
ail-t
o-R
ail I
nput
/Out
put
5-p
in S
OT-
23
(S,
R,
U) ,
5-p
in S
C-7
0(S
)
MC
P65
67
2–
0.0
47
100
10
1.8
to
5.5
-40 t
o +125
Ope
n-D
rain
, R
ail-t
o-R
ail I
nput
/Out
put
8-p
in S
OIC
, 8-p
in M
SO
P
MC
P65
69
4–
0.0
47
100
10
1.8
to
5.5
-40 t
o +125
Ope
n-D
rain
, R
ail-t
o-R
ail I
nput
/Out
put
14-p
in S
OIC
, 14-p
in T
SS
OP
lege
nd:
S =
Sta
ndar
d Pi
nout
; R
= R
ever
se P
inou
t; U
= A
ltern
ativ
e Pi
nout
mIX
eD S
Ign
al
mIX
ed s
Ign
al:
suc
cess
ive
app
roxi
mat
ion
reg
iste
r (s
ar
) a
/d c
onve
rter
s
Par
t #
res
olut
ion
(bits
)
max
imum
sam
plin
g r
ate
(ksa
mpl
es/s
ec)
# o
f In
put
cha
nnel
sIn
put
Type
Inte
rfac
eIn
put
Volta
ge
ran
ge (
V)m
ax. s
uppl
y cur
rent
(µa
)m
ax. I
nl
Tem
pera
ture
r
ange
(°
c)
Pac
kage
s
MC
P30
21
10
22
1S
ingl
e-en
ded
I2C
™2.7
to
5.5
250
±1 L
SB
−40 t
o +125
5-p
in S
OT-
23A
MC
P30
01
10
20
01
Sin
gle-
ende
dS
PI2.7
to
5.5
500
±1 L
SB
−40 t
o +85
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
TS
SO
P
MC
P30
02
10
20
02
Sin
gle-
ende
dS
PI2.7
to
5.5
650
±1 L
SB
−40 t
o +85
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
TS
SO
P
MC
P30
04
10
20
04
Sin
gle-
ende
dS
PI2.7
to
5.5
550
±1 L
SB
−40 t
o +85
14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P30
08
10
20
08
Sin
gle-
ende
dS
PI2.7
to
5.5
550
±1 L
SB
−40 t
o +85
16-p
in P
DIP
, 16-p
in S
OIC
MC
P32
21
12
22
1S
ingl
e-en
ded
I2C
™2.7
to
5.5
250
±2 L
SB
−40 t
o +125
5-p
in S
OT-
23A
MC
P32
01
12
10
01
Sin
gle-
ende
dS
PI2.7
to
5.5
400
±1 L
SB
−40 t
o +85
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
TS
SO
P
MC
P32
02
12
10
02
Sin
gle-
ende
dS
PI2.7
to
5.5
550
±1 L
SB
−40 t
o +85
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
TS
SO
P
MC
P32
04
12
10
04
Sin
gle-
ende
dS
PI2.7
to
5.5
400
±1 L
SB
−40 t
o +85
14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P32
08
12
10
08
Sin
gle-
ende
dS
PI2.7
to
5.5
400
±1 L
SB
−40 t
o +85
16-p
in P
DIP
, 16-p
in S
OIC
MC
P33
01
13
10
01
Diff
eren
tial
SPI
2.7
to
5.5
450
±1 L
SB
−40 t
o +85
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
TS
SO
P
MC
P33
02
13
10
02
Diff
eren
tial
SPI
2.7
to
5.5
450
±1 L
SB
−40 t
o +85
14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P33
04
13
10
04
Diff
eren
tial
SPI
2.7
to
5.5
450
±1 L
SB
−40 t
o +85
16-p
in P
DIP
, 16-p
in S
OIC
22 Analog & Interface Product Selector Guide
mIX
ed s
Ign
al:
del
ta-s
igm
a a
/d c
onve
rter
s
Par
t #
res
olut
ion
(bits
)
max
imum
sam
plin
g r
ate
(sam
ples
/sec
)
# o
f In
put
cha
nnel
sIn
terf
ace
sup
ply
Volta
ge
ran
ge (
V)
Typi
cal
sup
ply
cur
rent
(µa
)
Typi
cal I
nl
(ppm
)Te
mpe
ratu
re
ran
ge (
°c)
Feat
ures
Pac
kage
s
MC
P34
21
18
to
12
4 t
o 2
40
1 D
iffI2
C™
2.7
to
5.5
155
10
−40 t
o +125
PGA,
Vr
ef6-p
in S
OT-
23A
MC
P34
22
18
to
12
4 t
o 2
40
2 D
iffI2
C2.7
to
5.5
145
10
−40 t
o +125
PGA,
Vr
ef8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
2 ×
3 D
FN
MC
P34
23
18
to
12
4 t
o 2
40
2 D
iffI2
C2.7
to
5.5
145
10
−40 t
o +125
PGA,
Vr
ef,
Sel
ecta
ble
I2C
™ a
ddre
ssin
g10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
MC
P34
24
18
to
12
4 t
o 2
40
4 D
iffI2
C2.7
to
5.5
145
10
−40 t
o +125
PGA,
Vr
ef,
Sel
ecta
ble
I2C
add
ress
ing
14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P34
25
16
to
12
15
to
24
01
Diff
I2C
2.7
to
5.5
155
10
−40 t
o +125
PGA,
Vr
ef6-p
in S
OT-
23A
MC
P34
26
16
to
12
15
to
24
02
Diff
I2C
2.7
to
5.5
145
10
−40 t
o +125
PGA,
Vr
ef8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
2 ×
3 D
FN
MC
P34
27
16
to
12
15
to
24
02
Diff
I2C
2.7
to
5.5
145
10
−40 t
o +125
PGA,
Vr
ef,
Sel
ecta
ble
I2C
add
ress
ing
10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
MC
P34
28
16
to
12
15
to
24
04
Diff
I2C
2.7
to
5.5
145
10
−40 t
o +125
PGA,
Vr
ef,
Sel
ecta
ble
I2C
add
ress
ing
14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P35
50
-50
22
13
1 D
iffS
PI2.7
to
5.5
120
2−40 t
o +125
50 H
z re
ject
ion
8-p
in S
OIC
, 8-p
in M
SO
P
MC
P35
50
-60
22
15
1 D
iffS
PI2.7
to
5.5
140
2−40 t
o +125
60 H
z re
ject
ion
8-p
in S
OIC
, 8-p
in M
SO
P
MC
P35
51
22
14
1 D
iffS
PI2.7
to
5.5
120
2−40 t
o +125
Sim
ulta
neou
s 50/6
0 H
z re
ject
ion
8-p
in S
OIC
, 8-p
in M
SO
P
MC
P35
53
20
60
1 D
iffS
PI2.7
to
5.5
140
2−40 t
o +125
8-p
in S
OIC
, 8-p
in M
SO
P
mIX
ed s
Ign
al:
ene
rgy
mea
sure
men
t Ic
s
Par
t #
dyn
amic
r
ange
Typi
cal
acc
urac
ya
dc
cha
nnel
sg
ain
sel
ectio
no
utpu
t Ty
pe
Typi
cal V
olta
ge
ref
eren
ce d
rift
(p
pm/°
c)
Typi
cal
sup
ply
cur
rent
(m
a)
ana
log
Volta
ge
ran
ge (
V)
dig
ital
Volta
ge
ran
ge (
V)
Tem
pera
ture
r
ange
(°
c)
Feat
ures
Pac
kage
s
MC
P39
01
24
-bit
reso
lutio
n9
1 d
B
SIN
AD2
up t
o 32
SPI
12
2.6
4.5
to
5.5
2.7
to
5.5
−40 t
o +125
Phas
e co
rrec
tion,
Pr
ogra
mm
able
dat
a ra
te20-p
in S
SO
P,
20-p
in 4
× 4
QFN
MC
P39
03
24
-bit
reso
lutio
n9
1 d
B
SIN
AD6
up t
o 32
SPI
58.3
4.5
to
5.5
2.7
to
3.6
−40 t
o +125
Phas
e co
rrec
tion,
Pr
ogra
mm
able
dat
a ra
te28-p
in S
SO
P
MC
P39
05
A5
00
:10
.1%
2up
to
16
Activ
e po
wer
pul
se15
3.9
4.5
to
5.5
4.5
to
5.5
−40 t
o +125
Activ
e po
wer
cal
cula
tion
24-p
in S
SO
P
MC
P39
09
10
00
:10
.1%
2up
to
16
Activ
e po
wer
pu
lse/
SPI
15
3.9
4.5
to
5.5
4.5
to
5.5
−40 t
o +125
Activ
e po
wer
cal
cula
tion
24-p
in S
SO
P
MC
P39
11
24
-bit
reso
lutio
n9
4.5
dB
S
INAD
2up
to
32
SPI
71.7
2.7
to
3.6
2.7
to
3.6
−40 t
o +125
Phas
e co
rrec
tion,
Pro
gram
mab
le
data
rat
e20-p
in S
SO
P,
20-p
in 4
× 4
QFN
mIX
ed s
Ign
al:
cur
rent
/dc P
ower
mea
sure
men
t Ic
s
Par
t #
# o
f cur
rent
sen
sors
des
crip
tion
Full
sca
le
ran
ge (
mV)
cur
rent
m
easu
rem
ent
max
. acc
r (%
)
effe
ctiv
e sam
plin
g In
terv
al m
in. t
o m
ax. (
mse
c)
Bus
Vol
tage
r
ange
(V)
# o
f Te
mp.
m
onito
rs
(am
bien
t, r
emot
e)
Tem
p.
acc
urac
y
Typ.
/max
. (°
c)
ale
rt/
Ther
mPea
k d
etec
tion
add
ress
sel
ect
Pac
kage
PAC
17
10
1S
MB
us/I
2C
™ C
urre
nt/
DC
Pow
er S
enso
r1
0, 2
0, 4
0, 8
0±1
2.5
to
2,6
00
0 t
o + 4
0–
–1
–Ye
s10-p
in D
FN
PAC
17
20
2D
ual S
MB
us/I
2C
Cur
rent
/ D
C P
ower
Sen
sor
10
, 20, 4
0, 8
0±1
2.5
to
2,6
00
0 t
o + 4
0–
–1
–Ye
s10-p
in D
FN
EMC
17
01
-11
SM
Bus
/I2C
Cur
rent
/DC
Pow
er S
enso
r w
ith T
empe
ratu
re M
onito
ring
10
, 20, 4
0, 8
0±1
2.5
to
2,6
00
+3 t
o +24
1, 0
±0.2
5/±
12
Har
dwar
eYe
s12-p
in 4
× 4
QFN
EMC
17
01
-21
SM
Bus
/I2C
Cur
rent
/DC
Pow
er S
enso
r w
ith T
empe
ratu
re M
onito
ring
10
, 20, 4
0, 8
0±1
2.5
to
2,6
00
+3 t
o +24
1, 0
±0.2
5/±
12
Sof
twar
eYe
s10-p
in M
SO
P
EMC
17
02
-11
SM
Bus
/I2C
Cur
rent
/DC
Pow
er S
enso
r w
ith T
wo
Tem
pera
ture
Mon
itors
10
, 20, 4
0, 8
0±1
2.5
to
2,6
00
+3 t
o +24
1, 1
±0.2
5/±
12
Har
dwar
eYe
s12-p
in 4
× 4
QFN
EMC
17
04
-11
SM
Bus
/I2C
Cur
rent
/DC
Pow
er S
enso
r w
ith F
our
Tem
pera
ture
Mon
itors
10
, 20, 4
0, 8
0±1
2.5
to
2,6
00
+3 t
o +24
1, 3
±0.2
5/±
12
Sof
twar
eYe
s14-p
in S
OIC
EMC
17
04
-21
SM
Bus
/I2C
Cur
rent
/DC
Pow
er S
enso
r w
ith F
our
Tem
pera
ture
Mon
itors
10
, 20, 4
0, 8
0±1
2.5
to
2,6
00
+3 t
o +24
1, 3
±0.2
5/±
12
Har
dwar
eYe
s16-p
in 4
× 4
QFN
23Analog & Interface Product Selector Guide
mIX
ed s
Ign
al:
dua
l slo
pe a
/d c
onve
rter
s
Par
t #
sup
ply
Volta
ge (
V)In
put
Volta
ge r
ange
res
olut
ion
sam
plin
g r
ate
(con
v/s)
Inpu
t cha
nnel
sd
ata
Inte
rfac
eTe
mpe
ratu
re
ran
ge (
°c)
Feat
ures
Pac
kage
s
TC50
0±
4.5
to
±7
.5Vs
s +
1.5
V to
Vd
d –
1.5
VU
p to
16 b
its4 t
o 10
13-W
ire0 t
o +70
Diff
eren
tial i
nput
ran
ge,
Prog
ram
mab
le r
esol
utio
n/co
nver
sion
tim
e16-p
in P
DIP
, 16-p
in S
OIC
TC50
0A
±4
.5 t
o ±
7.5
V ss +
1.5
V to
Vd
d –
1.5
VU
p to
17 b
its4 t
o 10
13-W
ire0 t
o +70
Diff
eren
tial i
nput
ran
ge,
Prog
ram
mab
le r
esol
utio
n/co
nver
sion
tim
e16-p
in P
DIP
, 16-p
in S
OIC
TC51
0+
4.5
to
+5
.5V s
s +
1.5
V to
Vd
d –
1.5
VU
p to
17 b
its4 t
o 10
13-W
ire0 t
o +70
Diff
eren
tial i
nput
ran
ge,
Prog
ram
mab
le r
esol
utio
n/co
nver
sion
tim
e, C
harg
e pu
mp
(−V)
out
put
pin
24-p
in P
DIP
, 24-p
in S
OIC
TC51
4+
4.5
to
+5
.5V s
s +
1.5
V to
Vd
d –
1.5
VU
p to
17 b
its4 t
o 10
43-W
ire0 t
o +70
Diff
eren
tial i
nput
ran
ge,
Prog
ram
mab
le r
esol
utio
n/co
nver
sion
tim
e, C
harg
e pu
mp
(−V)
out
put
pin
28-p
in P
DIP
, 28-p
in S
OIC
TC52
0A
+4
.5 t
o +
5.5
––
––
Ser
ial p
ort
0 t
o +70
Opt
iona
l ser
ial i
nter
face
ada
pter
for
TC
500/5
00A/
510/5
14
14-p
in P
DIP
, 16-p
in S
OIC
TC71
09
±4
.5 t
o ±
5.5
V ss +
1.5
V to
Vd
d –
1.0
V1
2 b
its p
lus
sign
bit
2 t
o 10
1Pa
ralle
l or
Ser
ial p
ort
−25 t
o +85
Diff
eren
tial i
nput
ran
ge40-p
in P
DIP
, 44-p
in P
LCC
, 44-p
in M
QFP
TC71
09
A±
4.5
to
±5
.5V s
s +
1.5
V to
Vd
d –
1.0
V1
2 b
its p
lus
sign
bit
2 t
o 10
1Pa
ralle
l or
Ser
ial p
ort
−25 t
o +85
Diff
eren
tial i
nput
ran
ge40-p
in P
DIP
, 44-p
in P
LCC
, 44-p
in M
QFP
mIX
ed s
Ign
al:
Bin
ary
and
Bcd
a/d
con
vert
ers
Par
t #
des
crip
tion
sup
ply
Volta
ge (
V)In
put
Volta
ge r
ange
res
olut
ion
(dig
its)
res
olut
ion
(cou
nts)
max
Pow
er
(mW
)d
ata
Inte
rfac
eTe
mpe
ratu
re
ran
ge (
°c)
Feat
ures
Pac
kage
s
TC85
0B
inar
y A/
D±
5Vs
s +
1.5
V to
Vd
d –
1.5
V15-b
it±32,7
68
35
8-b
it pa
ralle
l−25 t
o +70
Hig
hest
con
vers
ion
spee
d (4
0 c
onv/
sec)
44-p
in P
LCC
, 40-p
in P
DIP
TC14
43
3B
CD
A/D
±4
.5 t
o ±
8±
19
9.9
mV
to 1
.999V
3½
±2,0
00
20
MU
Xed
BC
D−40 t
o +85
For
DM
M,
DPM
, D
ata
logg
ers
24-p
in S
OIC
, 24-p
in P
DIP
, 28-p
in P
LCC
TC14
43
3A
BC
D A
/D±
4.5
to
±8
±1
99
.9 m
V to
1.9
99V
3½
±2,0
00
20
MU
Xed
BC
D−40 t
o +85
For
DM
M,
DPM
, D
ata
logg
ers
24-p
in P
DIP
, 28-p
in P
LCC
mIX
ed s
Ign
al
– d
IsP
lay
a/d
co
nVe
rTe
rs
Par
t #
dis
play
Ty
pesup
ply
Volta
ge (
V)r
esol
utio
n (d
igits
)r
esol
utio
n (c
ount
s)Pow
er
(mW
)Te
mpe
ratu
re
ran
ge (
°c)
Feat
ures
Pac
kage
s
TC71
06
LCD
93
½±2,0
00
10
−25 t
o +85
For
DM
M, D
PM, D
ata
logg
er a
pplic
atio
ns40-p
in P
DIP
, 44-p
in P
LCC
, 44-p
in M
QFP
TC71
06
ALC
D9
3½
±2,0
00
10
−25 t
o +85
For
DM
M, D
PM, D
ata
logg
er a
pplic
atio
ns40-p
in P
DIP
, 44-p
in P
LCC
, 44-p
in M
QFP
TC71
07
LED
±5
3½
±2,0
00
10
−25 t
o +85
For
DM
M, D
PM, D
ata
logg
er a
pplic
atio
ns40-p
in P
DIP
, 44-p
in P
LCC
, 44-p
in M
QFP
TC71
07
ALE
D±
53
½±2,0
00
10
−25 t
o +85
For
DM
M, D
PM, D
ata
logg
er a
pplic
atio
ns40-p
in P
DIP
, 44-p
in P
LCC
, 44-p
in M
QFP
TC71
16
LCD
93
½±2,0
00
10
−25 t
o +85
Hol
d fu
nctio
n40-p
in P
DIP
, 44-p
in P
LCC
, 44-p
in M
QFP
TC71
16
ALC
D9
3½
±2,0
00
10
−25 t
o +85
Hol
d fu
nctio
n40-p
in P
DIP
, 44-p
in P
LCC
, 44-p
in M
QFP
TC71
17
LED
±5
3½
±2,0
00
10
−25 t
o +85
Hol
d fu
nctio
n40-p
in P
DIP
, 44-p
in P
LCC
, 44-p
in M
QFP
TC71
17
ALE
D±
53
½±2,0
00
10
−25 t
o +85
Hol
d fu
nctio
n40-p
in P
DIP
, 44-p
in P
LCC
, 44-p
in M
QFP
TC71
26
LCD
93
½±2,0
00
0.5
−25 t
o +85
Low
-pow
er T
C7106
40-p
in P
DIP
, 44-p
in P
LCC
, 44-p
in M
QFP
TC71
26
ALC
D9
3½
±2,0
00
0.5
−25 t
o +85
Low
-pow
er T
C7106
40-p
in P
DIP
, 44-p
in P
LCC
, 44-p
in M
QFP
TC71
29
LCD
94
½±20,0
00
4.5
0 t
o +70
Low
est
nois
e ±3 m
V se
nsiti
vity
40-p
in P
DIP
, 44-p
in P
LCC
, 44-p
in M
QFP
24 Analog & Interface Product Selector Guide
mIX
ed s
Ign
al:
dig
ital P
oten
tiom
eter
s
Par
t #
# o
f Ta
psm
emor
y#
per
Pac
kage
Inte
rfac
er
esis
tanc
e (k
ohm
s)In
l (m
ax)
dn
l (m
ax)
Tem
pera
ture
r
ange
(°
c)
com
men
tsPac
kage
s
MC
P40
11
64
Vola
tile
1U
p/D
own
2.1
, 5, 1
0, 5
00.5
0.5
−40 t
o +125
Pote
ntio
met
er m
ode
8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
2 ×
3 D
FN
MC
P40
12
64
Vola
tile
1U
p/D
own
2.1
, 5, 1
0, 5
00.5
0.5
−40 t
o +125
Rhe
osta
t m
ode
6-p
in S
OT-
23
MC
P40
13
64
Vola
tile
1U
p/D
own
2.1
, 5, 1
0, 5
00.5
0.5
−40 t
o +125
Pote
ntio
met
er t
o V s
s6-p
in S
OT-
23
MC
P40
14
64
Vola
tile
1U
p/D
own
2.1
, 5, 1
0, 5
00.5
0.5
−40 t
o +125
Rhe
osta
t to
Vs
s5-p
in S
OT-
23
MC
P40
17
12
8Vo
latil
e1
I2C
™5
, 10, 5
0, 1
00
0.5
0.2
5−40 t
o +125
7-b
it, V
olat
ile,
I2C
dig
ital p
oten
tiom
eter
6-p
in S
C-7
0
MC
P40
18
12
8Vo
latil
e1
I2C
5, 1
0, 5
0, 1
00
0.5
0.2
5−40 t
o +125
7-b
it, V
olat
ile,
I2C
dig
ital p
oten
tiom
eter
6-p
in S
C-7
0
MC
P40
19
12
8Vo
latil
e1
I2C
5, 1
0, 5
0, 1
00
0.5
0.2
5−40 t
o +125
7-b
it, V
olat
ile,
I2C
dig
ital p
oten
tiom
eter
5-p
in S
C-7
0
MC
P40
D1
71
28
Vola
tile
1I2
C5
, 10
, 50, 1
00
0.5
0.2
5−40 t
o +125
7-b
it, V
olat
ile,
I2C
dig
ital p
oten
tiom
eter
6-p
in S
C-7
0
MC
P40
D1
81
28
Vola
tile
1I2
C5
, 10
, 50, 1
00
0.5
0.2
5−40 t
o +125
7-b
it, V
olat
ile,
I2C
dig
ital p
oten
tiom
eter
6-p
in S
C-7
0
MC
P40
D1
91
28
Vola
tile
1I2
C5
, 10
, 50, 1
00
0.5
0.2
5−40 t
o +125
7-b
it, V
olat
ile,
I2C
dig
ital p
oten
tiom
eter
5-p
in S
C-7
0
MC
P40
21
64
Non
vola
tile
1U
p/D
own
2.1
, 5, 1
0, 5
00.5
0.5
−40 t
o +125
Pote
ntio
met
er m
ode,
Shu
tdow
n, W
iper
Lock
™ T
echn
olog
y8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
2 ×
3 D
FN
MC
P40
22
64
Non
vola
tile
1U
p/D
own
2.1
, 5, 1
0, 5
00.5
0.5
−40 t
o +125
Rhe
osta
t m
ode,
Shu
tdow
n, W
iper
Lock
™ T
echn
olog
y6-p
in S
OT-
23
MC
P40
23
64
Non
vola
tile
1U
p/D
own
2.1
, 5, 1
0, 5
00.5
0.5
−40 t
o +125
Pote
ntio
met
er t
o V s
s, W
iper
Lock
Tec
hnol
ogy
6-p
in S
OT-
23
MC
P40
24
64
Non
vola
tile
1U
p/D
own
2.1
, 5, 1
0, 5
00.5
0.5
−40 t
o +125
Rhe
osta
t to
Vs
s, S
hutd
own,
W
iper
Lock
Tec
hnol
ogy
5-p
in S
OT-
23
MC
P41
41
12
8N
onvo
latil
e1
SPI
5, 1
0, 5
0, 1
00
0.5
0.2
5−40 t
o +125
Pote
ntio
met
er m
ode,
Shu
tdow
n8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
MC
P41
42
12
8N
onvo
latil
e1
SPI
5, 1
0, 5
0, 1
00
0.8
0.2
5−40 t
o +125
Rhe
osta
t m
ode,
Shu
tdow
n8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
MC
P42
41
12
8N
onvo
latil
e2
SPI
5, 1
0, 5
0, 1
00
0.5
0.2
5−40 t
o +125
Pote
ntio
met
er m
ode,
Shu
tdow
n, W
iper
Lock
Tec
hnol
ogy
14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP,
16-p
in 4
× 4
QFN
MC
P42
42
12
8N
onvo
latil
e2
SPI
5, 1
0, 5
0, 1
00
0.8
0.2
5−40 t
o +125
Rhe
osta
t m
ode,
Shu
tdow
n10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
MC
P41
31
12
9Vo
latil
e1
SPI
5, 1
0, 5
0, 1
00
0.5
0.2
5−40 t
o +125
Pote
ntio
met
er m
ode,
Shu
tdow
n8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
MC
P41
32
12
9Vo
latil
e1
SPI
5, 1
0, 5
0, 1
00
0.8
0.2
5−40 t
o +125
Rhe
osta
t m
ode,
Shu
tdow
n8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
MC
P42
31
12
8Vo
latil
e2
SPI
5, 1
0, 5
0, 1
00
0.5
0.2
5−40 t
o +125
Pote
ntio
met
er m
ode,
Shu
tdow
n, W
iper
Lock
Tec
hnol
ogy
14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP,
16-p
in 4
× 4
QFN
MC
P42
32
12
8Vo
latil
e2
SPI
5, 1
0, 5
0, 1
00
0.8
0.2
5−40 t
o +125
Rhe
osta
t m
ode,
Shu
tdow
n10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
MC
P41
01
02
56
Vola
tile
1S
PI10
11
−40 t
o +85
Pote
ntio
met
er m
ode,
Shu
tdow
n8-p
in P
DIP
, 8-p
in S
OIC
MC
P41
05
02
56
Vola
tile
1S
PI50
11
−40 t
o +85
Pote
ntio
met
er m
ode,
Shu
tdow
n8-p
in P
DIP
, 8-p
in S
OIC
MC
P41
10
02
56
Vola
tile
1S
PI100
11
−40 t
o +85
Pote
ntio
met
er m
ode,
Shu
tdow
n8-p
in P
DIP
, 8-p
in S
OIC
MC
P41
51
25
6Vo
latil
e1
SPI
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
Pote
ntio
met
er m
ode,
Shu
tdow
n8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
MC
P41
52
25
6Vo
latil
e1
SPI
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
Rhe
osta
t m
ode,
Shu
tdow
n8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
MC
P41
61
25
6N
onvo
latil
e1
SPI
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
Pote
ntio
met
er m
ode,
Shu
tdow
n8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
MC
P41
62
25
6N
onvo
latil
e1
SPI
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
Rhe
osta
t m
ode,
Shu
tdow
n8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
MC
P42
01
02
56
Vola
tile
2S
PI10
11
−40 t
o +85
Pote
ntio
met
er m
ode,
Shu
tdow
n14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P42
10
02
56
Vola
tile
2S
PI100
11
−40 t
o +85
Pote
ntio
met
er m
ode,
Shu
tdow
n14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
MC
P42
51
25
6Vo
latil
e2
SPI
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
Pote
ntio
met
er m
ode,
Shu
tdow
n, W
iper
Lock
Tec
hnol
ogy
14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP,
16-p
in 4
× 4
QFN
MC
P42
52
25
6Vo
latil
e2
SPI
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
Rhe
osta
t m
ode,
Shu
tdow
n10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
MC
P42
61
25
6N
onvo
latil
e2
SPI
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
Pote
ntio
met
er m
ode,
Shu
tdow
n, W
iper
Lock
Tec
hnol
ogy
14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP,
16-p
in 4
× 4
QFN
MC
P42
62
25
6N
onvo
latil
e2
SPI
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
Rhe
osta
t m
ode,
Shu
tdow
n10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
MC
P43
41
12
9N
onvo
latil
e4
SPI
5, 1
0, 5
0, 1
00
0.8
0.3
75
−40 t
o +125
7-b
it, V
olat
ile p
oten
tiom
eter
with
an
SPI
inte
rfac
e20-p
in T
SS
OP,
20-p
in 4
× 4
QFN
MC
P43
42
12
9N
onvo
latil
e4
SPI
5, 1
0, 5
0, 1
00
0.8
0.3
75
−40 t
o +125
7-b
it, V
olat
ile r
heos
tat
with
an
SPI
inte
rfac
e14-p
in T
SS
OP
MC
P43
61
25
7N
onvo
latil
e4
SPI
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
8-b
it, N
on-v
olat
ile p
oten
tiom
eter
with
an
SPI
inte
rfac
e20-p
in T
SS
OP,
20-p
in 4
× 4
QFN
25Analog & Interface Product Selector Guide
mIX
ed s
Ign
al:
dig
ital P
oten
tiom
eter
s (c
ontin
ued)
Par
t #
# o
f Ta
psm
emor
y#
per
Pac
kage
Inte
rfac
er
esis
tanc
e (k
ohm
s)In
l (m
ax)
dn
l (m
ax)
Tem
pera
ture
r
ange
(°
c)
com
men
tsPac
kage
s
MC
P43
62
25
7N
onvo
latil
e4
SPI
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
8-b
it, N
on-v
olat
ile r
heos
tat
with
an
SPI
inte
rfac
e14-p
in T
SS
OP
MC
P43
31
12
9Vo
latil
e4
SPI
5, 1
0, 5
0, 1
00
0.8
0.3
75
−40 t
o +125
7-b
it, V
olat
ile p
oten
tiom
eter
with
an
SPI
inte
rfac
e20-p
in T
SS
OP,
20-p
in 4
× 4
QFN
MC
P43
32
12
9Vo
latil
e4
SPI
5, 1
0, 5
0, 1
00
0.8
0.3
75
−40 t
o +125
7-b
it, V
olat
ile r
heos
tat
with
an
SPI
inte
rfac
e14-p
in T
SS
OP
MC
P43
51
25
7Vo
latil
e4
SPI
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
8-b
it, N
on-v
olat
ile p
oten
tiom
eter
with
an
SPI
inte
rfac
e20-p
in T
SS
OP,
20-p
in 4
× 4
QFN
MC
P43
52
25
7Vo
latil
e4
SPI
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
8-b
it, N
on-v
olat
ile r
heos
tat
with
an
SPI
inte
rfac
e14-p
in T
SS
OP
MC
P44
41
12
9N
onvo
latil
e4
I2C
5, 1
0, 5
0, 1
00
0.5
0.2
5−40 t
o +125
Pote
ntio
met
er m
ode,
Wip
erLo
ck T
echn
olog
y20-p
in T
SS
OP,
20-p
in 4
× 4
QFN
MC
P44
42
12
9N
onvo
latil
e4
I2C
5, 1
0, 5
0, 1
01
0.8
0.3
75
−40 t
o +125
Rhe
osta
t m
ode,
Wip
erLo
ck T
echn
olog
y14-p
in T
SS
OP
MC
P44
61
25
7N
onvo
latil
e4
I2C
5, 1
0, 5
0, 1
02
10.5
−40 t
o +125
Pote
ntio
met
er m
ode,
Wip
erLo
ck T
echn
olog
y20-p
in T
SS
OP,
20-p
in 4
× 4
QFN
MC
P44
62
25
7N
onvo
latil
e4
I2C
5, 1
0, 5
0, 1
03
10.5
−40 t
o +125
Rhe
osta
t m
ode,
Wip
erLo
ck™
Tec
hnol
ogy
14-p
in T
SS
OP
MC
P45
31
12
8Vo
latil
e1
I2C
5, 1
0, 5
0, 1
00
0.5
0.2
5−40 t
o +125
Pote
ntio
met
er m
ode
8-p
in M
SO
P
MC
P46
31
12
8Vo
latil
e2
I2C
5, 1
0, 5
0, 1
00
0.5
0.2
5−40 t
o +125
Pote
ntio
met
er m
ode
14-p
in T
SS
OP,
16-p
in 4
× 4
QFN
MC
P45
41
12
8N
onvo
latil
e1
I2C
5, 1
0, 5
0, 1
00
0.5
0.2
5−40 t
o +125
Pote
ntio
met
er m
ode,
Wip
erLo
ck T
echn
olog
y8-p
in M
SO
P
MC
P46
41
12
8N
onvo
latil
e2
I2C
5, 1
0, 5
0, 1
00
0.5
0.2
5−40 t
o +125
Pote
ntio
met
er m
ode,
Wip
erLo
ck T
echn
olog
y14-p
in T
SS
OP,
16-p
in 4
x4 Q
FN
MC
P46
51
25
6Vo
latil
e2
I2C
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
Pote
ntio
met
er m
ode
14-p
in T
SS
OP,
16-p
in 4
× 4
QFN
MC
P45
61
25
6N
onvo
latil
e1
I2C
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
Pote
ntio
met
er m
ode,
Wip
erLo
ck T
echn
olog
y8-p
in M
SO
P
MC
P46
61
25
6N
onvo
latil
e2
I2C
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
Pote
ntio
met
er m
ode,
Wip
erLo
ck T
echn
olog
y14-p
in T
SS
OP,
16-p
in 4
× 4
QFN
MC
P45
32
12
8N
onvo
latil
e1
I2C
5, 1
0, 5
0, 1
00
0.8
0.3
75
−40 t
o +125
Rhe
osta
t m
ode
8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
MC
P46
32
12
8Vo
latil
e2
I2C
5, 1
0, 5
0, 1
00
0.8
0.3
75
−40 t
o +125
Rhe
osta
t m
ode
10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
MC
P45
42
12
8N
onvo
latil
e1
I2C
5, 1
0, 5
0, 1
00
0.8
0.3
75
−40 t
o +125
Rhe
osta
t m
ode,
Wip
erLo
ck T
echn
olog
y8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
MC
P45
52
25
6Vo
latil
e1
I2C
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
Rhe
osta
t m
ode
8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
MC
P46
52
25
6N
onvo
latil
e2
I2C
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
Rhe
osta
t m
ode
10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
MC
P45
62
25
6N
onvo
latil
e1
I2C
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
Rhe
osta
t m
ode,
Wip
erLo
ck T
echn
olog
y8-p
in M
SO
P, 8
-pin
3 ×
3 D
FN
MC
P46
62
25
6N
onvo
latil
e2
I2C
5, 1
0, 5
0, 1
00
10.5
−40 t
o +125
Rhe
osta
t m
ode,
Wip
erLo
ck T
echn
olog
y10-p
in M
SO
P, 1
0-p
in 3
× 3
DFN
mIX
ed s
Ign
al:
Fre
quen
cy-to
-Vol
tage
/Vol
tage
-to-F
requ
ency
con
vert
ers
Par
t #
Freq
uenc
y r
ange
(kh
z)Fu
ll sca
le (
ppm
Fs/°
c)
non
-line
arity
(%
Fs)
Tem
pera
ture
ran
ge (
°c)
Pac
kage
s
TC94
00
10
0±40
±0.0
5−40 t
o +85
14-p
in P
DIP
, 14-p
in S
OIC
TC94
01
10
0±40
±0.0
2−40 t
o +85
14-p
in P
DIP
, 14-p
in S
OIC
TC94
02
10
0±100
±0.2
5−40 t
o +85
14-p
in P
DIP,
14-
pin
SOIC
26 Analog & Interface Product Selector Guide
mIX
ed s
Ign
al:
d/a
con
vert
ers
Par
t #
res
olut
ion
(Bits
)d
acs
per
Pac
kage
Inte
rfac
eVr
efo
utpu
t set
tling
Ti
me
(µs)
dn
l (l
sB
)
Typi
cal
sta
ndby
cur
rent
(µa
)
Typi
cal o
pera
ting
cur
rent
(µa
)Te
mpe
ratu
re
ran
ge (
°c)
Pac
kage
s
TC13
20
81
SM
bus
Ext
10
0.8
0.1
350
−40 t
o +85
8-p
in M
SO
P, 8
-pin
SO
IC
TC13
21
10
1S
Mbu
sEx
t10
20.1
350
−40 t
o +85
8-p
in M
SO
P, 8
-pin
SO
IC
MC
P47
A16
1I2
C™
/SM
Bus
Ext
15
0.5
90
130
−40 t
o +125
6-p
in S
C-7
0
MC
P47
06
81
I2C
Ext
60.0
50.0
6210
−40 t
o +125
6-p
in S
OT-
23
MC
P47
16
10
1I2
CEx
t6
0.1
88
0.0
6210
−40 t
o +125
6-p
in S
OT-
23
MC
P47
25
12
1I2
CVd
d6
0.7
51
210
−40 t
o +125
6-p
in S
OT-
23
MC
P47
26
12
1I2
CEx
t6
0.7
50.0
6210
−40 t
o +125
6-p
in S
OT-
23
MC
P47
28
12
4I2
CIn
t/Vd
d6
0.7
50.0
4800
−40 t
o +125
10-p
in M
SO
P
MC
P48
01
81
SPI
Int
4.5
0.5
0.3
330
−40 t
o +125
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
DFN
MC
P48
02
82
SPI
Int
4.5
0.5
3.3
415
−40 t
o +125
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P48
11
10
1S
PIIn
t4.5
0.5
0.3
330
−40 t
o +125
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
DFN
MC
P48
12
10
2S
PIIn
t4.5
0.5
3.3
415
−40 t
o +125
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P48
21
12
1S
PIIn
t4.5
10.3
330
−40 t
o +125
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
DFN
MC
P48
22
12
2S
PIIn
t4.5
13.3
415
−40 t
o +125
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P
MC
P49
01
81
SPI
Ext
4.5
0.5
3.3
175
−40 t
o +125
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
DFN
MC
P49
02
82
SPI
Ext
4.5
0.5
0.3
350
−40 t
o +125
14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
inTS
SO
P
MC
P49
11
10
1S
PIEx
t4.5
0.5
3.3
175
−40 t
o +125
8-p
in D
FN,
8-p
in M
SO
P, 8
-pin
PD
IP,
8-p
in S
OIC
MC
P49
12
10
2S
PIEx
t4.5
0.5
0.3
350
−40 t
o +125
14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
inTS
SO
P
MC
P49
21
12
1S
PIEx
t4.5
0.7
53.3
175
−40 t
o +125
8-p
in P
DIP
, 8-p
in S
OIC
, 8-p
in M
SO
P, 8
-pin
DFN
MC
P49
22
12
2S
PIEx
t4.5
0.7
50.3
350
−40 t
o +125
14-p
in P
DIP
, 14-p
in S
OIC
, 14-p
in T
SS
OP
not
e: T
he a
nalo
g ou
tput
is v
olta
ge.
InTe
rFa
Ce
InTe
rFa
ce:
con
trol
ler
are
a n
etw
ork
(ca
n)
Pro
duct
s
Par
t #
ope
ratin
g Vo
ltage
(V)
Tem
pera
ture
r
ange
(°
c)
Tx
Buf
fers
rx
Buf
fers
Filte
rsm
asks
Inte
rrup
t o
utpu
tu
niqu
e Fe
atur
esPac
kage
s
MC
P25
10
(1)
2.7
to
5.5
−4
0 t
o +
12
53
26
2Ye
sC
AN 2
.0B
Act
ive
cont
rolle
r w
ith S
PI in
terf
ace
to M
CU
, 3 t
rans
mit
buffer
s, 2
rec
eive
buf
fers
, H
W a
nd S
W m
essa
ge t
rigge
rs
18-p
in P
DIP
, 18-p
in S
OIC
, 20-p
in
TSS
OP
MC
P25
15
2.7
to
5.5
−4
0 t
o +
12
53
26
2Ye
sM
CP2
510 p
in c
ompa
tible
upg
rade
with
enh
ance
d fe
atur
es
incl
udin
g hi
gher
thr
ough
put
and
data
byt
e fil
terin
g 18-p
in P
DIP
, 18-p
in S
OIC
, 20-p
in
TSS
OP
MC
P25
02
02
.7 t
o 5
.5−
40
to
+1
25
32
21
N/A
CAN
2.0
B A
ctiv
e I/
O E
xpan
der,
Con
figur
able
I/O
, 2 P
WM
out
puts
14-p
in P
DIP
, 14-p
in S
OIC
MC
P25
02
52
.7 t
o 5
.5−
40
to
+8
53
22
1N
/AC
AN 2
.0B
Act
ive
I/O
Exp
ande
r, C
onfig
urab
le I/
O,
2 P
WM
out
puts
, O
ne-w
ire C
AN o
ptio
n14-p
in P
DIP
, 14-p
in S
OIC
MC
P25
05
02
.7 t
o 5
.5−
40
to
+1
25
32
21
N/A
Mix
ed-S
igna
l CAN
2.0
B A
ctiv
e I/
O E
xpan
der,
Con
figur
able
I/O
, 4 1
0-b
it AD
Cs,
2 P
WM
out
puts
14-p
in P
DIP
, 14-p
in S
OIC
MC
P25
05
52
.7 t
o 5
.5−
40
to
+8
53
22
1N
/AM
ixed
-Sig
nal C
AN 2
.0B
Act
ive
I/O
Exp
ande
r, C
onfig
urab
le I/
O,
4 1
0-b
it AD
Cs,
2 P
WM
out
puts
, O
ne-w
ire C
AN o
ptio
n14-p
in P
DIP
, 14-p
in S
OIC
MC
P25
51
4.5
to
5.5
−4
0 t
o +
12
5N
/AN
/AN
/AN
/AN
/AH
igh-
spee
d C
AN T
rans
ceiv
er (
1 M
bps
max
. C
AN b
us s
peed
),
ISO
11898 c
ompa
tible
, In
dust
ry s
tand
ard
pino
ut8-p
in P
DIP
, 8-p
in S
OIC
not
e 1
: N
ot r
ecom
men
ded
for
new
des
igns
.
27Analog & Interface Product Selector Guide
InTe
rFa
ce:
Inf
rare
d P
rodu
cts
Par
t #
ope
ratin
g Vo
ltage
(V)
ope
ratin
g Te
mp.
ran
ge (
°c)
max
. Bau
d r
ate
(Kba
ud)
uni
que
Feat
ures
Pac
kage
s
MC
P21
20
2.5
to
5.5
−4
0 t
o +85
325
UAR
T to
IR e
ncod
er/d
ecod
er w
ith b
oth
hard
war
e an
d so
ftw
are
baud
rat
e se
lect
ion
14-p
in P
DIP
, 14-p
in S
OIC
MC
P21
22
1.8
to
5.5
−4
0 t
o +85
16× le
ss t
han
cloc
k in
put
UAR
T to
IR e
ncod
er/d
ecod
er8-p
in P
DIP
, 8-p
in S
OIC
MC
P21
40
A2
.0 t
o 5
.5−
40
to
+85
9.6
IrDA®
Sta
ndar
d pr
otoc
ol h
andl
er p
lus
bit
enco
der/
deco
der,
Fi
xed
baud
rat
e, L
ow-c
ost
18-p
in P
DIP
, 18-p
in S
OIC
, 20-p
in S
SO
P
MC
P21
50
3.0
to
5.5
−4
0 t
o +85
115.2
IrDA®
Sta
ndar
d pr
otoc
ol h
andl
er p
lus
bit
enco
der/
deco
der
on
one
chip
for
DTE
app
licat
ions
, Pr
ogra
mm
able
ID18-p
in P
DIP
, 18-p
in S
OIC
, 20-p
in S
SO
P
MC
P21
55
3.0
to
5.5
−4
0 t
o +85
115.2
IrDA®
Sta
ndar
d pr
otoc
ol h
andl
er p
lus
bit
enco
der/
deco
der
on
one
chip
for
DC
E ap
plic
atio
ns, Pr
ogra
mm
able
ID18-p
in P
DIP
, 18-p
in S
OIC
, 20-p
in S
SO
P
IrDA®
is a
reg
iste
red
trad
emar
k of
Infr
ared
Dat
a As
soci
atio
n
InTe
rFa
ce:
eth
erne
t P
rodu
cts
Par
t #
ope
ratin
g Vo
ltage
(V)
ope
ratin
g Te
mp.
r
ange
(°
c)
ma
cP
hy
TX/r
X r
am
Inte
rfac
eFe
atur
esPac
kage
s
ENC
28J
603
.1 t
o 3
.6−
40
to
+8
5Ye
s10B
ase-
T8 K
BS
PI• 1
0Bas
e-T Ethe
rnet con
troller, IE
EE 802.3™ com
pliant
• Loo
pbac
k test m
odes
, Au
to-polarity detec
tion
• C
lock out pin with
program
mab
le frequ
encies
28-p
in S
OIC
, 28-p
in S
SO
P,
28-p
in 6
× 6
QFN
, 28-p
in S
PDIP
ENC
424
J600
3.0
to
3.6
−4
0 t
o +
85
Yes
10/1
00B
ase-
T24 K
B• S
PI• 8
-bit multip
lexed
para
llel i
nter
face
• 1
0/1
00 Etherne
t co
ntrolle
r, IE
EE 802.3(TM) co
mpliant
• C
ryptog
raph
ic Sec
urity Eng
ines
: MD5, SHA-1, AE
S, RSA
• P
reprog
rammed
uniqu
e MAC
add
ress
• Loo
pbac
k test m
odes
, Au
to-polarity detec
tion
• C
lock out pin with
program
mab
le frequ
encies
44-p
in T
QFP
, 44-p
in Q
FN
ENC
624
J600
3.0
to
3.6
−4
0 t
o +
85
Yes
10/1
00B
ase-
T24 K
B
• S
PI• 8
-bit or 16-bit
mul
tiple
xed
or
dem
ultip
lexe
d pa
ralle
l int
erfa
ce
• 1
0/1
00 Etherne
t co
ntrolle
r, IE
EE 802.3(TM) co
mpliant
• C
ryptog
raph
ic Sec
urity Eng
ines
: MD5, SHA-1, AE
S, RSA
• P
reprog
rammed
uniqu
e MAC
add
ress
• Loo
pbac
k test m
odes
, Au
to-polarity detec
tion
• C
lock out pin with
program
mab
le frequ
encies
64-p
in T
QFP
InTe
rFa
ce:
Pas
sive
acc
ess
Pro
duct
s
Par
t #
ope
ratin
g Vo
ltage
(V)
ope
ratin
g Te
mp.
r
ange
(°
c)
Bus
Ty
per
F car
rier
Fr
eque
ncy
dat
a Fo
rmat
Feat
ures
Pac
kage
s
MC
P20
30
1.8
to
3.6
−4
0 t
o +
85
SPI
125 k
Hz
NR
ZTh
ree
axis
sig
nal c
ondi
tioni
ng d
evic
es f
or p
assi
ve a
cces
s ap
plic
atio
ns, H
igh-
sens
itivi
ty,
Con
figur
able
sm
art
wak
e-up
filte
r14-p
in P
DIP
, 14-p
in S
OIC
,
14-p
in T
SS
OP
InTe
rFa
ce:
lIn
Tra
nsce
iver
Pro
duct
s
Par
t #
des
crip
tion
Vreg
out
put
Volta
ge (
V)o
pera
ting
Tem
p.
ran
ge (
°c)
Vreg
out
put
cur
rent
(m
a)
Vcc r
ange
(V
)m
ax
Bau
d r
ate
lIn
spe
cific
atio
n sup
port
edPac
kage
s
MC
P20
03
AS
tand
-alo
ne L
IN T
rans
ceiv
er
(indu
stry
sta
ndar
d pi
nout
)N
one
−40 t
o +125
Non
e6 t
o 27
20 K
baud
Rev
isio
n 1.3
, 2.0
, 2.1
, S
AE J
2602
8-p
in P
DIP
, 8-p
in S
OIC
,
8-p
in 4
× 4
DFN
MC
P20
04
AS
tand
-alo
ne L
IN T
rans
ceiv
er
with
TXE
/Fau
lt I/
ON
one
−40 t
o +125
Non
e6 t
o 27
20 K
baud
Rev
isio
n 1.3
, 2.0
, 2.1
, S
AE J
2602
8-p
in P
DIP
, 8-p
in S
OIC
,
8-p
in 4
× 4
DFN
MC
P20
21
ALI
N T
rans
ceiv
er w
ith
inte
grat
ed V
reg
5.0
± 3
%,
3.3
± 3
%−40 t
o +125
70
6 t
o 18
20 K
baud
Rev
isio
n 1.3
, 2.0
, 2.1
, S
AE J
2602
8-p
in P
DIP
, 8-p
in S
OIC
,
8-p
in 4
× 4
DFN
MC
P20
22
ALI
N T
rans
ceiv
er w
ith
inte
grat
ed V
reg
, R
ESET
pin
5.0
± 3
%,
3.3
± 3
%−40 t
o +125
70
6 t
o 18
20 K
baud
Rev
isio
n 1.3
, 2.0
, 2.1
, S
AE J
2602
14-p
in P
DIP
, 14-p
in S
OIC
,
14-p
in T
SS
OP
MC
P20
25
LIN
Tra
nsce
iver
with
in
tegr
ated
Vr
eg
5.0
± 3
%,
3.3
± 3
%−40 t
o +125
70
6 t
o 18
20 K
baud
Rev
isio
n 2.0
8-p
in P
DIP
, 8-p
in S
OIC
,
8-p
in 4
× 4
DFN
MC
P20
50
LIN
Tra
nsce
iver
with
in
tegr
ated
Vr
eg, W
WD
T5
.0 ±
3%
, 3
.3 ±
3%
−40 t
o +125
70
6 t
o 18
20 K
baud
Rev
isio
n 1.3
, 2.0
, 2.1
, S
AE J
2602
14-p
in P
DIP
, 14-p
in S
OIC
, 20-p
in Q
FN
28 Analog & Interface Product Selector Guide
InTe
rFa
ce:
ser
ial P
erip
hera
ls
Par
t #
des
crip
tion
ope
ratin
g Vo
ltage
(V)
ope
ratin
g Te
mp.
r
ange
(°
c)
Bus
Ty
pe
max
. Bus
Fr
eque
ncy
(kh
z)Fe
atur
esPac
kage
s
MC
P23
00
88
-bit
I/O
Por
t Ex
pand
er1
.8 t
o 5
.5−40 t
o +85
I2C
™1700
3 H
W a
ddre
ss p
ins,
HW
inte
rrup
t, 2
5 m
A so
urce
/sin
k ca
pabi
lity
per
I/O
18-p
in P
DIP
, 18-p
in S
OIC
, 20-p
in S
SO
P,
20-p
in 4
× 4
QFN
MC
P23
S0
88
-bit
I/O
Por
t Ex
pand
er1
.8 t
o 5
.5−40 t
o +85
SPI
10000
2 H
W a
ddre
ss p
ins,
HW
inte
rrup
t, 2
5 m
A so
urce
/sin
k ca
pabi
lity
per
I/O
18-p
in P
DIP
, 18-p
in S
OIC
, 20-p
in S
SO
P,
20-p
in 4
× 4
QFN
MC
P23
00
98
-bit
I/O
Por
t Ex
pand
er1
.8 t
o 5
.5−40 t
o +125
I2C
™3400
1 H
W a
ddre
ss p
in, H
W in
terr
upt,
25 m
A so
urce
/sin
k pe
r I/
O,
100 k
Hz,
400 k
Hz
and
3.4
MH
z I2
C™
sup
port
ed18-p
in P
DIP
, 18-p
in S
OIC
, 20-p
in S
SO
P
MC
P23
S0
98
-bit
I/O
Por
t Ex
pand
er1
.8 t
o 5
.5−40 t
o +125
SPI
10000
HW
inte
rrup
t, 2
5 m
A so
urce
/sin
k pe
r I/
O18-p
in P
DIP
, 18-p
in S
OIC
MC
P23
01
61
6-b
it I/
O P
ort
Expa
nder
2.0
to
5.5
−40 t
o +85
I2C
™400
3 H
W a
ddre
ss in
puts
, H
W in
terr
upt,
25 m
A so
urce
/sin
k ca
pabi
lity
per
I/O
28-p
in P
DIP
, 28-p
in S
OIC
, 28-p
in S
SO
P,
28-p
in 6
× 6
QFN
MC
P23
01
71
6-b
it I/
O E
xpan
der
1.8
to
5.5
−40 t
o +125
I2C
™1700
3 H
W a
ddre
ss p
ins,
25 m
A si
nk/s
ourc
e pe
r I/
O,
100 k
Hz,
400 k
Hz
and
3-4
MH
z I2
C™
sup
port
ed,
Inte
rrup
t ou
tput
28-p
in P
DIP
, 28-p
in S
OIC
, 28-p
in S
SO
P,
28-p
in Q
FN
MC
P23
S1
71
6-b
it I/
O E
xpan
der
1.8
to
5.5
−40 t
o +125
SPI
10000
3 H
W a
ddre
ss p
ins,
25 m
A si
nk/s
ourc
e pe
r I/
O,
Inte
rrup
t ou
tput
28-p
in P
DIP
, 28-p
in S
OIC
, 28-p
in S
SO
P,
28-p
in Q
FN
MC
P23
01
81
6-b
it I/
O P
ort
Expa
nder
1.8
to
5.5
−40 t
o +125
I2C
™3400
1 H
W a
ddre
ss p
in, 2 H
W in
terr
upts
, 25 m
A so
urce
/sin
k pe
r I/
O, 100 k
Hz,
400 k
Hz
and
3.4
MH
z I2
C™
sup
port
ed24-p
in S
SO
P, 2
8-p
in S
OIC
, 28-p
in S
DIP
MC
P23
S1
81
6-b
it I/
O P
ort
Expa
nder
1.8
to
5.5
−40 t
o +125
SPI
10000
2 H
W in
terr
upts
, 25 m
A so
urce
/sin
k pe
r I/
O28-p
in S
OIC
, 28-p
in S
DIP
INTE
RFA
CE:
IEE
E 80
2.11
™ M
odul
es
Par
t #
Pin
cou
ntFr
eque
ncy
ran
ge (
gh
z)sen
sitiv
ity
(dB
m)
Pow
er
out
put
(dB
m)
rss
ITx
Pow
er
con
sum
ptio
n (m
a)
rx
Pow
er
con
sum
ptio
n (m
a)
clo
cksle
epm
acm
ac F
eatu
res
Pro
toco
lsen
cryp
tion
Inte
rfac
ePac
kage
s
MR
F24W
B0M
A3
62
.41
2–2
.48
4−
91
10
Yes
156
85
25 M
Hz
0.1
μA(1
)Ye
s802.1
1b,
long
ran
ge,
low
pow
er
Wi-F
i® C
onne
ctio
n M
anag
er,
Anno
unce
, DN
S, D
DN
S, D
HC
P, FT
P, H
TTP,
NB
NS
, SN
MP,
SN
TP,
SS
L, T
CP,
UD
P, Ze
roC
onf(2
)
WPA
2-P
SK
, W
PA-P
SK
, W
EP4-w
ire S
PI36/M
odul
e
MR
F24W
B0M
B3
62
.41
2–2
.48
4−
91
10
Yes
156
85
25 M
Hz
0.1
μA(1
)Ye
s802.1
1b,
long
ran
ge,
low
pow
er
Wi-F
i Con
nect
ion
Man
ager
, An
noun
ce, D
NS
, DD
NS
, DH
CP,
FTP,
HTT
P, N
BN
S, S
NM
P, S
NTP
, S
SL,
TC
P, U
DP,
Zero
Con
f(2)
WPA
2-P
SK
, W
PA-P
SK
, W
EP4-w
ire S
PI36/M
odul
e
MR
F24W
G0M
A3
62
.41
2–2
.48
4−
95
18
Yes
240
156
25 M
Hz
0.1
mA(1
)Ye
s802.1
1b/
g, W
i-Fi D
irect
, S
oftA
P, W
PS
Wi-F
i Con
nect
ion
Man
ager
, An
noun
ce, D
NS
, DD
NS
, DH
CP,
FTP,
HTT
P, N
BN
S, S
NM
P, S
NTP
, S
SL,
TC
P, U
DP,
Zero
Con
f(2)
WPA
2-P
SK
, W
PA-P
SK
, W
EP4-w
ire S
PI36/M
odul
e
MR
F24W
G0M
B3
62
.41
2–2
.48
4−
95
18
Yes
240
156
25 M
Hz
0.1
mA(1
)Ye
s802.1
1b/
g, W
i-Fi D
irect
, S
oftA
P, W
PS
Wi-F
i Con
nect
ion
Man
ager
, An
noun
ce, D
NS
, DD
NS
, DH
CP,
FTP,
HTT
P, N
BN
S, S
NM
P, S
NTP
, S
SL,
TC
P, U
DP,
Zero
Con
f(2)
WPA
2-P
SK
, W
PA-P
SK
, W
EP4-w
ire S
PI36/M
odul
e
RN
17
14
92
.41
2–2
.48
4−
83
12
Yes
130
30
44 M
Hz
4 μ
AYe
s802.1
1b/
g, S
oftA
P,
WPS
, W
ebsc
anD
HC
P, D
NS
, AR
P, IC
MP,
FTP
cl
ient
, H
TTP
clie
nt,
TCP,
UD
PW
EP,
WPA
, W
PA2
UAR
T, S
PI
Sla
ve, W
i-Fi
49/M
odul
e
RN
13
1C
44
2.4
12
–2.4
84
−8
51
8Ye
s210 (+18
dBm
)40
44 M
Hz
4 μ
AYe
s802.1
1b/
g, S
oftA
P,
WPS
, W
ebsc
anD
HC
P, D
NS
, AR
P, IC
MP,
FTP
cl
ient
, H
TTP
clie
nt,
TCP,
UD
PW
EP,
WPA
, W
PA2
UAR
T, S
PI
Sla
ve, W
i-Fi
44/M
odul
e
RN
13
1G
44
2.4
12
–2.4
84
−8
51
8Ye
s210 (+18
dBm
)40
44 M
Hz
4 μ
AYe
s802.1
1b/
g, S
oftA
P,
WPS
, W
ebsc
anD
HC
P, D
NS
, AR
P, IC
MP,
FTP
cl
ient
, H
TTP
clie
nt,
TCP,
UD
PW
EP,
WPA
, W
PA2
UAR
T, S
PI
Sla
ve, W
i-Fi
44/M
odul
e
not
e 1
: In
dica
tes
“off
” cu
rren
t n
ote
2:
Sup
port
ed in
the
pro
vide
d st
ack
INTE
RFA
CE:
Blu
etoo
th M
odul
es
Par
t #
Pin
cou
ntFr
eque
ncy
ran
ge
(gh
z)sen
sitiv
ity
(dB
m)
Pow
er
out
put
(dB
m)
Pow
er c
onsu
mpt
ion
sle
epm
ac
Pro
files
Inte
rfac
ePac
kage
s
RN
41-I/
RM
35
2.4
12
–2.4
84
−8
01
5S
tand
by/I
dle
25 m
A, C
onne
cted
(no
rmal
mod
e) 3
0 m
A,
Con
nect
ed (lo
w p
ower
Sni
ff) 8 m
AS
tand
by/I
dle
(Dee
p sl
eep
enab
led)
250 μ
AYe
sS
PP,
DU
N,
HID
, iA
P, H
CI,
RFC
OM
M,
L2C
AP,
SD
PU
ART,
US
B,
Blu
etoo
th35/M
odul
e
RN
42
-I/R
M3
52
.41
2–2
.48
4−
80
4S
tand
by/I
dle
25 m
A, C
onne
cted
(no
rmal
mod
e) 3
0 m
A,
Con
nect
ed (lo
w p
ower
Sni
ff) 8 m
AS
tand
by/I
dle
(Dee
p sl
eep
enab
led)
26 μ
AYe
sS
PP,
DU
N,
HID
, iA
P, H
CI,
RFC
OM
M,
L2C
AP,
SD
PU
ART,
US
B,
Blu
etoo
th35/M
odul
e
29Analog & Interface Product Selector Guide
INTE
RFA
CE:
IEE
E 80
2.15
.4 Z
igB
ee®
RF
Tran
scei
ver P
rodu
cts
Par
t #
Pin
cou
ntFr
eque
ncy
ran
ge (
gh
z)sen
sitiv
ity
(dB
m)
Pow
er o
utpu
t (d
Bm
)r
ssI
Tx P
ower
con
sum
ptio
n (m
a)
rx
Pow
er
con
sum
ptio
n (m
a)
clo
ck
(mh
z)sle
epm
ac
ma
c
Feat
ures
encr
yptio
nIn
terf
ace
Pac
kage
s
MR
F24
J40
40
2.4
05
to
2.4
8−
95
0Ye
s23
19
20
2 μ
AYe
sC
SM
A-C
AAE
S128
4-w
ire S
PI40-p
in Q
FN
MR
F24
J40
MA
12
2.4
05
to
2.4
8−
95
0Ye
s23
19
20
2 μ
AYe
sC
SM
A-C
AAE
S128
4-w
ire S
PI12/M
odul
e
MR
F24
J40
MB
12
2.4
05
to
2.4
8−
10
220
Yes
130
25
20
5 μ
AYe
sC
SM
A-C
AAE
S128
4-w
ire S
PI12/M
odul
e
MR
F24
J40
MC
12
2.4
05
to
2.4
8−
10
820
Yes
120
25
20
12 μ
AYe
sC
SM
A-C
AAE
S128
4-w
ire S
PI12/M
odul
e
INTE
RFA
CE:
Sub
-GH
z Tr
ansc
eive
rs
Par
t #
Pin
cou
ntFr
eque
ncy
ran
ge
(mh
z)sen
sitiv
ity
(dB
m)
Pow
er o
utpu
t (d
Bm
)r
ssI
Tx P
ower
con
sum
ptio
n (m
a)
rx
Pow
er
con
sum
ptio
n (m
a)
clo
ck (
mh
z)sle
epIn
terf
ace
Pac
kage
s
MR
F49
XA
16
43
3/8
68
/91
5−
11
07
Yes
15 m
A @
0 d
Bm
11
10 M
Hz
0.3
μA
4-w
ire S
PI16-p
in T
SS
OP
MR
F89
XA
32
86
8/9
15
/95
0−
11
312.5
Yes
25 m
A @
0 d
Bm
312.8
MH
z0.1
µA
4-w
ire S
PI32-p
in T
QFN
MR
F89
XAM
8A
12
86
8−
11
312.5
Yes
25 m
A @
0 d
Bm
312.8
MH
z0.1
µA
4-w
ire S
PI12/M
odul
e
MR
F89
XAM
9A
12
91
5−
11
312.5
Yes
25 m
A @
0 d
Bm
312.8
MH
z0.1
µA
4-w
ire S
PI12/M
odul
e
INTE
RFA
CE:
Sub
-GH
z Tr
ansm
itter
s
Par
t #
Pin
cou
ntFr
eque
ncy
ran
ge (
mh
z)P
rogr
am
mem
ory
(Byt
es)
eeP
ro
m
(byt
es)
ra
m
(byt
es)
dig
ital
Tim
erW
atch
dog
Ti
mer
max
. spe
ed
(mh
z)Ic
sP
mod
ulat
ion
dat
a r
ate
(ksp
s)o
utpu
t Pow
er
(dB
m)
ope
ratin
g Vo
ltage
(V)
Pac
kage
s
PIC
12F5
29
T48
A6
41
8–8
68
2.3
K64
201
11
8Ye
sO
OK
/FS
K100
10
2.0
–3.7
14-p
in T
SS
OP
PIC
12F5
29
T39
A6
31
0–9
28
2.3
K64
201
11
8Ye
sO
OK
/FS
K100
10
2.0
–3.7
14-p
in T
SS
OP
PIC
12LF
18
40
T48
A6
41
8–8
68
7.1
K256
256
21
32
Yes
OO
K/F
SK
100
10
1.8
–3.6
14-p
in T
SS
OP
PIC
12LF
18
40
T39
A6
31
0–9
28
7.1
K256
256
21
32
Yes
OO
K/F
SK
100
10
1.8
–3.6
14-p
in T
SS
OP
rfPI
C12
F67
5F
63
80
–45
01
.7K
128
64
11
20
Yes
ASK
/FS
K40
10
2.0
–5.5
20-p
in S
SO
P
rfPI
C12
F67
5H
6
85
0–9
30
1.7
K128
64
11
20
Yes
ASK
/FS
K40
10
2.0
–5.5
20-p
in S
SO
P
rfPI
C12
F67
5K
6
29
0–3
50
1.7
K128
64
11
20
Yes
ASK
/FS
K40
10
2.0
–5.5
20-p
in S
SO
P
InTe
rFa
ce:
usB
Pro
duct
s
Par
t #
usB
spe
edu
sB
com
plia
ntP
hy
mcu
Inte
rfac
eTx
/rx
Buf
fer
siz
e (b
ytes
)n
umbe
r of
gP
Ioo
pera
ting
Volta
ge
(V)
Pac
kage
s
MC
P22
00
Full-
Spe
ed U
SB
(1
2 M
b/s)
, Lo
w-S
peed
US
B (1
.5 M
b/s)
Yes
Yes
UAR
T128/1
28
82.7
to
5.5
20-p
in S
OIC
, 20-p
in T
SS
OP,
20-p
in Q
FN
MC
P22
10
Full-
Spe
ed U
SB
(1
2 M
b/s)
, Lo
w-S
peed
US
B (1
.5 M
b/s)
Yes
Yes
SPI
64
93.3
to
5.5
20-p
in S
OIC
, 20-p
in T
SS
OP,
20-p
in Q
FN
InTe
rFa
ce:
usB
Por
t Po
wer
con
trol
lers
with
cha
rger
em
ulat
ion
Par
t #
des
crip
tion
usB
Por
t Pow
er
sw
itch
(55
m)
hi-s
peed
usB
2
.0 s
witc
hB
atte
ry c
harg
er
emul
atio
n P
rofil
es8
res
isto
r set
cur
rent
lim
itscha
rgin
g In
dica
tor
out
put
att
ach
det
ectio
n o
utpu
tcur
rent
m
easu
rem
ent
Pow
er
allo
catio
nIn
terf
ace
Pac
kage
s
UC
S1
00
1-1
US
B P
ort
Pow
er C
ontr
olle
r w
ith C
harg
er E
mul
atio
n1
19
up t
o 2.5
AYe
s–
––
Dis
cret
e I/
020-p
in 4
× 4
QFN
UC
S1
00
1-2
US
B P
ort
Pow
er C
ontr
olle
r w
ith C
harg
er E
mul
atio
n1
19
up t
o 2.5
A–
Yes
––
Dis
cret
e I/
O20-p
in 4
× 4
QFN
UC
S1
00
2-1
Prog
ram
mab
le U
SB
Por
t Po
wer
Con
trol
ler
with
C
harg
er E
mul
atio
n1
19 +
1 p
rogr
amm
able
up t
o 2.5
AYe
s–
Yes
Yes
I2C
™/S
MB
us20-p
in 4
× 4
QFN
30 Analog & Interface Product Selector Guide
Sa
FeTY
& S
eCU
rIT
Ysa
FeTy
& s
ecu
rIT
y: P
hoto
elec
tric
sm
oke
det
ecto
r Ic
s
Par
t #
hor
n d
rive
r a
larm
Pat
tern
ala
rm
mem
ory
low
Bat
tery
d
etec
tion
cha
mbe
r
Test
ala
rm
Inte
rcon
nect
sen
sitiv
ity
Tim
erIn
tern
al
Po
ra
ltern
ate
dia
gnos
tic m
ode
ope
ratin
g Te
mp.
ran
ge (
°c)
Pac
kage
s
RE4
6C
14
0N
FPA
Tem
pora
lN
oYe
sYe
sYe
sYe
sYe
s–
−25 t
o +75
16-p
in P
DIP
, 16-p
in S
OIC
RE4
6C
14
1N
FPA
Tem
pora
lN
oYe
sYe
sYe
s–
Yes
–−25 t
o +75
16-p
in P
DIP
, 16-p
in S
OIC
RE4
6C
14
3C
ontin
uous
Ton
eN
oYe
sYe
sYe
s–
Yes
–−25 t
o +75
16-p
in P
DIP
, 16-p
in S
OIC
RE4
6C
14
4C
ontin
uous
Ton
eN
oYe
sYe
sYe
sYe
sYe
s–
−25 t
o +75
16-p
in P
DIP
, 16-p
in S
OIC
RE4
6C
14
5N
FPA
Tem
pora
lN
oYe
sYe
sYe
sYe
sYe
sYe
s−25 t
o +75
16-p
in P
DIP
, 16-p
in S
OIC
RE4
6C
16
5N
FPA
Tem
pora
lYe
sYe
sYe
sYe
sYe
sYe
sYe
s−25 t
o +75
16-p
in P
DIP
, 16-p
in S
OIC
RE4
6C
16
6C
ontin
uous
Ton
eYe
sYe
sYe
sYe
sYe
sYe
sYe
s−25 t
o +75
16-p
in P
DIP
, 16-p
in S
OIC
RE4
6C
16
7N
FPA
Tem
pora
lYe
sYe
sYe
sYe
sYe
sYe
sYe
s−25 t
o +75
16-p
in P
DIP
, 16-p
in S
OIC
RE4
6C
16
8C
ontin
uous
Ton
eYe
sYe
sYe
sYe
sYe
sYe
sYe
s−25 t
o +75
16-p
in P
DIP
, 16-p
in S
OIC
RE4
6C
19
0N
FPA
Tem
pora
l or
Con
tinuo
us T
one
Yes
Yes
Yes
Yes
Yes
Yes
–−10 t
o +60
16-p
in S
OIC
saFe
Ty &
sec
ur
ITy:
Ion
izat
ion
smok
e d
etec
tor
Ics
Par
t #
hor
n d
rive
r
ala
rm P
atte
rna
larm
m
emor
ylo
w B
atte
ry
det
ectio
nr
ever
se B
atte
ry
Pro
tect
ion
ala
rm
Inte
rcon
nect
hus
h Ti
mer
Pow
er-u
p lo
w B
atte
ry T
est
ope
ratin
g Te
mp.
r
ange
(°
c)
Pac
kage
s
RE4
6C
12
0N
FPA
Tem
pora
l or
Con
tinuo
us T
one
No
Yes
Yes
––
–−10 t
o +60
16-p
in P
DIP
RE4
6C
12
1N
FPA
Tem
pora
lN
oYe
sYe
sYe
s–
–−10 t
o +60
16-p
in P
DIP
RE4
6C
12
2N
FPA
Tem
pora
lN
oYe
sYe
sYe
sYe
sYe
s−10 t
o +60
16-p
in P
DIP
RE4
6C
12
6C
ontin
uous
Ton
eN
oYe
sYe
sYe
s–
–−10 t
o +60
16-p
in P
DIP
RE4
6C
12
7C
ontin
uous
Ton
eN
oYe
sYe
sYe
sYe
sYe
s−10 t
o +60
16-p
in P
DIP
RE4
6C
12
8N
FPA
Tem
pora
lN
oYe
sYe
sYe
s–
Yes
−10 t
o +60
16-p
in P
DIP
RE4
6C
12
9C
ontin
uous
Ton
eN
oYe
sYe
sYe
s–
Yes
−10 t
o +60
16-p
in P
DIP
RE4
6C
15
2N
FPA
Tem
pora
l or
Con
tinuo
us T
one
No
Yes
Yes
Yes
Yes
Yes
−10 t
o +60
16-p
in P
DIP
RE4
6C
16
2N
FPA
Tem
pora
l or
Con
tinuo
us T
one
Yes
Yes
Yes
Yes
Yes
Yes
−10 t
o +60
16-p
in P
DIP
RE4
6C
16
3N
FPA
Tem
pora
l or
Con
tinuo
us T
one
Yes
Yes
Yes
Yes
Yes
Yes
−10 t
o +60
16-p
in P
DIP
RE4
6C
18
0N
FPA
Tem
pora
l or
Con
tinuo
us T
one
Yes
Yes
No
Yes
Yes
Yes
−10 t
o +60
16-p
in P
DIP
, 16-p
in S
OIC
saFe
Ty &
sec
ur
ITy:
Ion
izat
ion
smok
e d
etec
tor
Fron
t en
ds
Par
t #
mic
ropr
oces
sor
com
patib
le o
utpu
to
utpu
t o
ptio
nsTy
pica
l app
licat
ion
ope
ratin
g Te
mpe
ratu
re r
ange
(°
c)
Pac
kage
s
RE4
6C
11
2Ye
sVo
ut
1/4
of Vd
d o
r Vo
ut
1/4
of D
etec
t In
put
3V
or 3
.3V
Mic
ropr
oces
sor
−10 t
o +60
8-p
in P
DIP
RE4
6C
11
4Ye
sV o
ut
1/2
of Vd
d o
r Vo
ut
1/2
of D
etec
t In
put
5V
Mic
ropr
oces
sor
−10 t
o +60
8-p
in P
DIP
31Analog & Interface Product Selector Guide
sa
FeTy
& s
ecu
rIT
y: P
iezo
elec
tric
hor
n d
rive
rs
Par
t #
ope
ratin
g Vo
ltage
(V)
led
drive
rVo
ltage
r
egul
ator
(V)
low
Bat
tery
d
etec
tion
Inte
rcon
nect
Pow
er g
ood
ope
ratin
g Te
mp.
ran
ge (
°c)
Pac
kage
s
RE4
6C
10
06
to
16
––
––
–−40 t
o +85
8-p
in P
DIP
, 8-p
in S
OIC
RE4
6C
10
16
to
16
Yes
––
––
−40 t
o +85
8-p
in P
DIP
, 8-p
in S
OIC
RE4
6C
10
44
to
8–
––
––
0 t
o +50
14-p
in P
DIP
, 14-p
in S
OIC
RE4
6C
10
56
to
12
Yes
3.3
or
5Ye
s–
–−40 t
o +85
14-p
in P
DIP
, 14-p
in S
OIC
RE4
6C
10
72
to
5Ye
s3 o
r 3.3
Yes
––
0 t
o +50
16-p
in P
DIP
, 16-p
in S
OIC
RE4
6C
10
86
to
12
–3.3
or
5–
––
−40 t
o +85
8-p
in P
DIP
, 8-p
in S
OIC
RE4
6C
10
96
to
12
–3
Yes
Yes
Yes
−40 t
o +85
16-p
in P
DIP
, 16-p
in S
OIC
RE4
6C
11
72
to
5–
––
––
0 t
o +50
8-p
in P
DIP
, 8-p
in S
OIC
RE4
6C
11
96
to
12
–3
Yes
Yes
Yes
−40 t
o +85
16-p
in P
DIP
, 16-p
in S
OIC
RE4
6C
31
72
to
5Ye
s–
––
–−10 t
o +65
8-p
in P
DIP
, 8-p
in S
OIC
RE4
6C
31
82
to
5Ye
s–
––
–−10 t
o +65
8-p
in P
DIP
, 8-p
in S
OIC
32 Analog & Interface Product Selector Guide
Part Number Suffix DesignationsOrdering Information for all Microchip Analog Products beginning with “TC” prefix (formerly TelCom Semiconductor Products)
TC 7106 A-60 1 C P L 713
Taping Direction:TR or 713: Standard Taping, blank: no tape and reelNumber of Package Pins (See specific data sheet)Package TypeOperating Temperature Range:C: Commercial Range (0°C to +70°C)E: Extended Industrial Range (-40°C to +85°C)I: Industrial Range (-25°C to +85°C)M: Military Range (-55°C to +125°C)V: See Data Sheet for Specific Temperature Range(Extra Feature Code and/or Tolerance)* (See specific data sheet)(Output Voltage or Detect Voltage)* (If applicable, see specific data sheet)Electrical Performance Grade Option (Variation/Option)* (If applicable, see specific data sheet)A: Test Selection Criteria (See specific data sheet)B: R: Reversed Pin LayoutProduct Part Number (2 to 6 characters, see specific data sheet)Product PrefixNOTE: ( )* Used for voltage regulators and detectors .
Analog Product Part Numbers
Package Description # of Pins Package Description # of Pins
AB TO-220 3 MB SOT-89 3
AK TO-220 7 MF DFN (3 × 3) 8
AT TO-220 5 MT SOT-89 5
AV TO-220 (Formed) 5 NB SOT-23B 3
BB TO-220B 3 OA SOIC (N) 8
CB SOT-23A 3 OD SOIC (N) 14
CH SOT-23A 6 OE SOIC (W) 16
CT SOT-23A 5 OG SOIC (W) 24
DB SOT-223 3 OI SOIC (W) 28
EB DDPAK 3 OR SOIC (N) 16
EK DDPAK 7 PA PDIP (N) 8
ET DDPAK 5 PD PDIP (N) 14
HA SOP 8 PE PDIP (N) 16
JA CDIP (N) 8 PF PDIP (N) 24
JD CDIP (N) 14 PG PDIP (W) 24
JE CDIP (N) 16 PI PDIP (W) 28
JG CDIP (W) 24 PJ PDIP (W) 28
JI CDIP (W) 28 PL PDIP (W) 40
JL CDIP (W) 40 QR QSOP (N) 16
KU MQFP 64 RC SOT-143 4
KW MQFP 44 SI SSOP (W) 28
LB SC-70 3 UA MSOP 8
LI PLCC 28 UN MSOP 10
LS PLCC 68 VB DPAK 3
LT SC-70 5 ZB TO-92 3
LW PLCC 44 ZM TO-92 2
33Analog & Interface Product Selector Guide
Package Type (see table below)Operating Temperature Range:- blank: Commercial Range (0°C to +70°C)I: Industrial (-40°C to +85°C) E: Extended Industrial Range (-40°C to +125°CSupervisor Bond Options:D:F:H:blank: Not ApplicableReset Voltage Thresholds or Performance Grade Options: (1-3 characters, see specific data sheets)270: 2 .7V reset threshold300: 3 .0V reset threshold315: 3 .15V reset threshold450: 4 .5V reset threshold460: 4 .6V reset threshold475: 4 .7V reset threshold485: 4 .85V reset thresholdorB: Grade (see specific data sheet)C: Grade (see specific data sheet)or blank: not applicableTape and Reel:T: Tape and Reelblank: No Tape and ReelProduct Part Number (3-6 characters, see specific data sheet)Product Prefix
Part Number Suffix DesignationsOrdering Information for all Microchip Analog Products beginning with “MCP” prefix
MCP xxxxx T - yyy z h / qq
Analog Product Part Numbers
Package Description # of Pins Tube/Bag Qty. Reel Qty.
TO TO-92 3 1000 N/A
TT SOT-23 3 N/A 3000
OT SOT-23 5 N/A 3000
P PDIP 8 60 N/A
SN SOIC 8 100 3300
ST TSSOP 8 100 2500
MS MSOP 8 100 2500
MC DFN (2 × 3) 8 N/A 3300
MF DFN (3 × 3) 8 50 3300
MF DFN (3 × 3, 10-Pin) 10 120 3300
ST TSSOP 14 96 2500
P PDIP 14 30 N/A
SL SOIC 14 57 2600
P PDIP 18 25 N/A
SO SOIC 18 42 1100
ST TSSOP 20 74 2500
SS SSOP 20 67 1600
ML QFN (6 × 6) 28 50 1600
ML QFN (4 × 4) 16 91 3300
34 Analog & Interface Product Selector Guide
Tape and Reel:TF: Tape and ReelF: No Tape and ReelPackage Type (2 to 4 characters, see table below)Product Part Number (3 characters, see specific data sheet)Product Prefix
Part Number Suffix DesignationsOrdering Information for all Microchip Analog Products beginning with “RE46C” prefix
RE46C xxx yyyy zz
Analog Product Part Numbers
Package Description # of Pins Tube/Bag Qty. Reel Qty.
E8 PDIP 8 60 N/A
S8 SOIC 8 100 3300
E14 PDIP 14 30 N/A
S14 SOIC 14 57 2600
E16 PDIP 16 30 N/A
S16 SOIC 16 50 2600
SW16 SOIC (300 mil) 16 47 1000
Tape and Reel:TR: Tape and ReelBlank: No Tape and ReelPackage Type (see table below)
Functional Option (refer to data sheet)Product Part Number (4-5 characters)Product Prefix for USB port power controllers
Part Number Suffix DesignationsOrdering Information for all Microchip Analog Products beginning with “UCS” prefix
UCS xxxxx - y - ppp - tt
Package Description # of Pins Reel Qty.
BP QFN (4 × 4) 20 4000
35Analog & Interface Product Selector Guide
Tape and Reel:TR: Tape and ReelBlank: No Tape and ReelPackage Type (see table below)
Functional Option (refer to data sheet)Product Part NumberProduct Prefix for Current and DC Power Sensors
Part Number Suffix DesignationsOrdering Information for all Microchip Analog Products beginning with “PAC” prefix
PAC xxxx - y - ppp - tt
Package Description # of Pins Reel Qty.
AIA DFN (3 × 3) 10 4000
AIZL MSOP 10 4000
KP QFN (4 × 4) 12 4000
YZT SOIC 14 4000
AP QFN (4 × 4) 16 4000
Analog Product Part Numbers
Tape and Reel:TR: Tape and ReelBlank: No Tape and ReelPackage Type (see table below)
Functional Option (refer to data sheet)
Number of Temperature SensorsProduct Part NumberProduct Prefix for Current and DC Power Sensors (shared with Thermal Products)
Part Number Suffix DesignationsOrdering Information for all Microchip Analog Products beginning with “EMC” prefix
Current/DC Power Sensors: Temperature Sensors/Remote Diode Monitors:EMC 170 x - y - pppp - tt EMC 1 b c d - y - pppp - tt
Package Description # of Pins Reel Qty.
AIA DFN (3 × 3) 10 4000
AIZL MSOP 10 4000
KP QFN (4 × 4) 12 4000
YZT SOIC 14 4000
AP QFN (4 × 4) 16 4000
Tape and Reel:TR: Tape and ReelBlank: No Tape and ReelPackage Type (see table below)
Address Option
Number of Temperature Monitors
Product Part Number 2: Hardware shutdown Otherwise arbitrary
Product Part Number Arbitrary
Product Part Number 1: Designates it is a temp . sensor
Product Prefix for Temperature Sensors (shared with Fan Controller Products)
Package Description # of Pins Reel Qty.
AIA DFN (3 × 3) 10 4000
AC3 TDFN (2 × 3) 8 5000
ACZL MSOP 8 4000
ACZT SOIC 8 4000
AIZL MSOP 10 4000
AP QFN (4 × 4) 16 4000
YZT SOIC 14 4000
36 Analog & Interface Product Selector Guide
Tape and Reel:TR: Tape and ReelBlank: No Tape and ReelPackage Type (see table below)
Functional Option (refer to data sheet)
Product Part Number arbitrary
Product Part Number 3: Designates fan speed controller (except EMC2300)
Product Part Number 2: Designates it is a fan controller
Product Prefix for Fan Controllers Shared with Temperature Sensors
Part Number Suffix DesignationsOrdering Information for all Microchip Analog Products beginning with “EMC” prefix
Fan Controllers:EMC 2 a xx - y - pppp - tt
Package Description # of Pins Tube Qty. Reel Qty.
ACZT SOIC 8 N/A 4000
ACZL MSOP 8 N/A 4000
AP QFN (4 × 4) 16 N/A 4000
BP QFN (4 × 4) 20 N/A 4000
KP QFN 12 N/A 4000
AZC SSOP 16 97 2800
DZK QFN 28 N/A 4000
CZC SSOP 24 N/A 2500
Analog Product Part Numbers
37Analog & Interface Product Selector Guide
Evaluation, Demonstration and Development Kits
Order # Description Devices SupportedThermal Management Demonstration and Evaluation ToolsADM00345 MTD6505 3-Phase BLDC Sensorless Fan Controler Demonstration Board MTD6505
MCP9700DM-PCTL MCP9700 Temperature-to-Voltage Converter PICtail™ Demonstration Board MCP9800
MCP9700DM-TH1 MCP9700 Thermistor Demonstration Board MCP9700, MCP6S92
MCP9800DM-PCTL MCP9800 Temperature Sensor PICtail Demonstration Board MCP9800
MCP9800DM-TS1 MCP9800 Temperature Sensor Demonstration Board MCP9800
MCP9800DM-DL MCP9800 Temperature Data Logger Demonstration Board MCP9800
MCP9800DM-DL2 MCP9800 Temperature Data Logger Demonstration Board 2 MCP9800, MCP101, PIC10F202, 24LC16B
TC1047ADM-PICTL TC1047A Temperature-to-Voltage Converter PICtail™ Demonstration Board TC1047A
TC642DEMO TC64X/64XB Fan Speed Controller Demonstration Board TC642, TC646, TC647, TC648, TC649
TC650DEMO TC650 Fan Controller Demonstration Board TC650
TC652DEMO TC652 Fan Controller Demonstration Board TC652
TC72DM-PICTL TC72 Digital Temperature Sensor PICtail Demonstration Board TC72
TC74DEMO TC74 Serial Digital Thermal Sensor Demonstration Board TC74
TC77DM-PICTL TC77 Thermal Sensor PICtail Demonstration Board TC77
TMPSNS-RTD1 PT100 RTD Evaluation Board MCP6S26, MCP3301, MCP6024, MCP41010, PIC18F2550, TC1071, MCP6002
TMPSNSRD-RTD2 RTD Reference Design Board MCP3551, MCP9804
TMPSNSRD-TCPL1 Thermocouple Reference Design MCP9804, MCP3421
EVB-EMC1043 EMC1043 Evaluation Board EMC1043
EVB-EMC1043C EMC1043 Evaluation Board with External Diode Off-Board Cable EMC1043
EVB-EMC1412 EMC1412 Evaluation Board EMC1412
EVB-EMC14xx EMC1412 Evaluation Board EMC1412, EMC1413, EMC1414
EVB-EMC2101 EMC2101 Evaluation Board EMC2101
EVB-EMC2103-1 EMC2103-1 Evaluation Board EMC2103-1
Mixed Signal Demonstration and Evaluation Tools
ADM00310 MCP3903 ADC Evaluation Board for 16-bit MCUs MCP3903, MCP2200, PIC24, dsPIC33
ADM00317 MCP47X6 PICtail Plus Daughter Board MCP4726, MCP4716, MCP4706
ADM00333 PIC18F87J72 Evaluation Board PIC18F87J72
ADM00398 MCP3911 ADC Evaluation Board for 16-bit MCUs MCP3911
ARD00280 PIC18F87J72 Single Phase Energy Meter Reference Design N/A
ARD00330 PIC18F87J72 Energy Monitoring PICtail™ Plus Daughter Board N/A
ARD00342 MCP3901 and PIC18F65J90 Shunt Meter Reference Design MCP3901, PIC18F65J90
DV3201A MCP3XXX Single/Dual ADC MXDEV® Daughter Board MCP3001, MCP3002, MCP3201, MCP3202
DV3204A MCP3204/08 MXDEV Daughter Board MCP3004, MCP3008, MCP3204, MCP3208
DV42XXX MCP42XXX Digital Potentiometer Evaluation Board MCP42010, MCP42050, MCP42100
DVMCPA MXDEV Analog Evaluation System MCP3001/02, MCP3004/08, MCP3201/08, MCP3204/08
Analog Design Development Tools
38 Analog & Interface Product Selector Guide
Evaluation, Demonstration and Development Kits
Order # Description Devices SupportedMixed Signal Demonstration and Evaluation Tools (Continued)
MCP2030DM-TPR MCP2030 Bidirectional Communications Demonstration Kit MCP2030, MCP3421, PIC16F636, TC4421, PIC18F4680
MCP3221DM-PCTL MCP3221 PICtail Demonstration Board MCP3221
MCP3421EV MCP3421 SOT-23-6 Evaluation Board MCP3421
MCP3421DM-BFG MCP3421 Battery Fuel Gauge Demonstration Board MCP3421, MCP73831, MCP1702, PIC18F4550
MCP3421DM-WS1 MCP3421 Weight Scale Demonstration Board MCP3421, MCP6V07, PIC18F4550
MCP3422EV MCP3422 Evaluation Board MCP3422
MCP3423EV MCP3423 Evaluation Board MCP3423
MCP3424EV MCP3424 Evaluation Board MCP3424
MCP3425EV MCP3425 SOT 23-6 Evaluation Board MCP3425
MCP3551DM-PCTL MCP3551 Delta-Sigma ADC Demonstration Board MCP3551
MCP355XDV-MS1 MCP355X Sensor Application Developer’s Board MCP3551, MCP3553, MCP3550-50, MCP3550-60
MCP355XDM-TAS MCP355X Tiny Application Sensor Demonstration Board MCP3551, MCP3553, MCP3550-50, MCP3550-60
MCP3901EV-MCU16 MCP3901 ADC Evaluation Board for 16-bit MCUs MCP3901, PIC24F, PIC24H, dsPIC33, PIC18F86J55
MCP3905EV MCP3905 Energy Meter Evaluation Board MCP3905
MCP3905RD-PM1 MCP3905 Energy Meter Reference Design MCP3905
MCP3909EV-MCU16 MCP3909 ADC Evaluation Board for 16-bit MCUs MCP3909
MCP3909RD-3PH1 MCP3909 3-Phase Energy Meter Reference Design MCP3909, PIC18F2520, PIC18F4550
MCP3909RD-3PH3 MCP3909 and dsPIC33F 3-Phase Energy Meter Reference Design MCP3909, dsPIC33FJ128GP706
MCP3909RD-1PH1 MCP3909 and PIC18F85J90 Single Phase Energy Meter Reference Design MCP3909, PIC18F85J90
MCP401XEV MCP401X Evaluation Board MCP40D18, MCP4017, MCP4018, MCP4019, MCP40D17, MCP40D19
MCP4XXXDM-DB MCP4XXX Digital Potentiometer Daughter Board MCP4011, MCP4021, MCP42XXX
MCP402XEV MCP402X Non-Volatile Digital Potentiometer Evaluation Board MCP4021, MCP4022, MCP4023, MCP4024
MCP42XXDM-PTPLS MCP42XX PICtail Plus Daughter Board MCP4231, MCP4232, MCP4241, MCP4242, MCP4251, MCP4252, MCP4261, MCP4262
MCP42XXEV MCP42XX Evaluation Board MCP4231, MCP4241, MCP4251, MCP4261
MCP43XXEV MCP43XX Evaluation Board MCP4331, MCP4341, MCP4351, MCP4361
MCP46XXDM-PTPLS MCP46XX PICtail Plus Daughter Board MCP4631, MCP4641, MCP4651, MCP47652, MCP4661, MCP4662
MCP46XXEV MCP46XX Evaluation Board MCP4631, MCP4641, MCP4651, MCP4661
MCP4725EV MCP4725 SOT 23-6 Evaluation Board MCP4725
MCP4725DM-PTPLS MCP4725 PICtail Plus Daughter Board MCP4725
MCP4728EV MCP4728 Quad DAC Evaluation Board MCP4728
MXSIGDM Mixed Signal PICtail Demonstration Board TC132X, MCP330X, MCP320X, MCP482X, MCP492X, MCP3221, MCP3021, MCP1525
EVB-EMC1701 EMC1701 Evaluation Board EMC1701-1, EMC1701-2
EVB-PAC1710 PAC1710 Evaluation Board PAC1710
EVB-PAC1720 PAC1720 Evaluation Board PAC1720
Analog Design Development Tools
39Analog & Interface Product Selector Guide
Evaluation, Demonstration and Development Kits
Order # Description Devices SupportedPower Management Demonstration and Evaluation ToolsADM00360 MCP16301 High Voltage Buck Converter 300 mA D2PAK Demo Board MCP16301
ADM00414 MCP16321 Evaluation Board MCP16321
ADM00423 MCP16322 Evaluation Board MCP16321, MCP16322
ADM00427 MCP16323 Evaluation Board MCP16321, MCP16322, MCP16323
ADM00434 MCP19035 300 KHz Synchronous Buck Controller Evaluation Board MCP19035
ARD00386 MCP1640 12V/50 mA Two Cell Input Boost Converter Reference Design MCP1640
MCP1252DM-BKLT MCP1252 Charge Pump Backlight Demonstration Board MCP1252
MCP1256/7/8/9EV MCP1256/7/8/9 Charge Pump Evaluation Board MCP1256, MCP1257, MCP1258, MCP1259
MCP1601EV MCP1601 Buck Regulator Evaluation Board MCP1601
MCP1602EV MCP1602 Evaluation Board MCP1602
MCP1603EV MCP1603 Buck Converter Evaluation Board MCP1603
MCP1603RD-TNY MCP1603 Tiny Reference Design MCP1603
MCP1612EV MCP1612 Synchronous Buck Regulator Evaluation Board MCP1612
MCP1630RD-DDBK1 MCP1630 +12V in Dual Output Buck Converter Reference Design MCP1630
MCP1630RD-DDBK3 MCP1630 Bidirectional 4-Cell Li-Ion Charger Reference Design MCP1630V, PIC16F88, MCP6022
MCP1630RD-NMC1 MCP1630 Low-Cost NiMH Battery Charger Reference Design MCP1630, PIC12F683, MCP6292, MCP1702
MCP1630DM-DDBK1 MCP1630 1A Bias Supply Demonstration Board MCP1630
MCP1630DM-DDBS1 MCP1630 Automotive Input Boost Converter Demonstration Board MCP1630, PIC12F683
MCP1630DM-LED2 MCP1630 Boost Mode LED Driver Demonstration Board MCP1630V, PIC12F683, MCP1702
MCP1630RD-LIC1 MCP1630 Li-Ion Multi Bay Battery Charger Reference Design MCP1630
MCP1630RD-LIC2 MCP1630 Low Cost Li-Ion Battery Charger Reference Design MCP1630
MCP1630RD-SALED MCP1630 SEPIC Automotive LED Driver Reference Board MCP16301
MCP1630DM-NMC1 MCP1630 NiMH Battery Charger Demonstration Board MCP1630
MCP1630DM-DDBS2 MCP1630 Coupled Inductor Boost Demonstration Board MCP1630, PIC12F683
MCP1630DM-DDBK4 MCP1630 Automotive Input, Triple Output Converter Demonstration Board MCP1630, PIC12F683
MCP1631RD-DCPC1 MCP1631HV Digitally Controlled Programmable Current Source Reference Design MCP1631HV, PIC16F616
MCP1631RD-MCC1 MCP1631HV Multi-Chemistry Battery Charger Reference Design MCP1631HV, PIC16F883
MCP1631RD-MCC2 MCP1631HV Multi-Chemistry Battery Charger Reference Design MCP1631HV, PIC16F883
MCP1640EV-SBC MCP1640 Sync Boost Converter Evaluation Board MCP1640
MCP1640RD-4ABC MCP1640 Single Quad-A Battery Boost Converter Reference Design MCP1640, PIC12F617
MCP1650DM-LED1 MCP1650 3W White LED Demonstration Board MCP1650
MCP1650DM-LED2 MCP1650 Multiple White LED Demonstration Board MCP1650
MCP1650EV MCP1650 Boost Controller Evaluation Board MCP1650
MCP1650DM-DDSC1 MCP1650 SEPIC Power Supply Demonstration Board MCP1650
MCP1726EV MCP1726 1A LDO Evaluation Board MCP1726
MCP73113EV-1SOVP MCP73113 OVP Single Cell Li-Ion Battery Charger Evaluation Board MCP73113, MCP73114
MCP73213EV-2SOVP MCP73213 OVP Dual Cell Li-Ion Battery Charger Evaluation Board MCP73213
MCP73X23EV-LFP MCP73X23 OVP Lithium Iron Phosphate Battery Charger Evaluation Board MCP73123, MCP73223
MCP73871DM-VPCC MCP73871 Demonstration Board with Voltage Proportional Current Control MCP73871
MCP7381XEV MCP7381X Low-Cost Li-Ion Battery Charger Evaluation Board MCP73811, MCP73812
MCP7382XEV MCP7382X Li-Ion Battery Charger Evaluation Board MCP7382X
MCP73831EV MCP73831 Evaluation Kit MCP73831
Analog Design Development Tools
40 Analog & Interface Product Selector Guide
Analog Design Development Tools
Evaluation, Demonstration and Development Kits
Order # Description Devices SupportedPower Management Demonstration and Evaluation Tools (Continued)MCP73833EV MCP73833 Li-Ion Battery Charger Evaluation Board MCP73833, MCP73834
MCP7383XEV-DIBC MCP73837/8 AC/USB Dual Input Battery Charger Evaluation Board MCP73837, MCP73838
MCP7383XRD-PPM MCP7383X Li-Ion System Power Path Management Reference Design MCP73831, MCP73832, MCP73833, MCP73834
MCP7384XEV MCP7384X Li-Ion Battery Charger Evaluation Board MCP7384X
MCP73855EV MCP73855 Li-Ion Battery Charger Evaluation Board MCP73855
MCP7386XEV MCP7386X Li-Ion Battery Charger Evaluation Board MCP7386X
MCP73871EV MCP73871 Evaluation Board MCP73871
SOT23-3EV-VREG SOT23-3 Voltage Regulator Evaluation Board MCP1701A, MCP1702, MCP1703
SOT223-3EV-VREG SOT223-3 Voltage Regulator Evaluation Board MCP1791, MCP1824, MCP1825, MCP1826
SOT89-3EV-VREG SOT89-3 Voltage Regulator Evaluation Board MCP1700, MCP1701A, MCP1702, MCP1703
SOT23-5EV-VREG SOT23-5 Voltage Regulator Evaluation Board MCP1801, MCP1802, TC1014/1015/1185, and other SOT23-5 LDOs
SOT223-5EV-VREG SOT223-5 Voltage Regulator Evaluation Board MCP1790, MCP1824, MCP1825, MCP1826
TO263-3EV-VREG TO220-3/TO263-3 Voltage Regulator Evaluation Board MCP1790, MCP1825S, MCP1826S, MCP1827S
TO263-5EV-VREG TO220-5/TO263-5 Voltage Regulator Evaluation Board MCP1790, MCP1791, MCP1825, MCP1826, MCP1827
TC110DM TC110 Boost Converter Demonstration Board TC110, MCP73832
TC115EV TC115 PFM/PWM Boost Converter Evaluation Board TC115
TC1016/17EV TC1016/17 LDO Linear Regulator Evaluation Board TC1016/17
TC1303BDM-DDBK1 TC1303B Demonstration Board TC1303B
TC1303DM-DDBK2 TC1303 DFN Adjustable Output Demonstration Board TC1303C
EVB-UCS1001 UCS1001 Evaluation Board UCS1001-1, UCS1001-2
EVB-UCS1002 UCS1002 Evaluation Board UCS1002
Interface Products Demonstration and Evaluation ToolsADM00419 MCP2210 Breakout Module MCP2210
ADM00421 MCP2210 Evaluation Kit MCP2210
DV251001 MCP2510/2515 CAN Developer’s Kit MCP2515, MCP2510
DV250501 MCP250XX CAN I/O Expanders Developer’s Kit MCP25020, MCP25025, MCP25050, MCP25055
GPIODM-KPLCD GPIO Expander Keypad and LCD Demonstration Board MCP23008, MCP23S08, MCP23017, MCP23S17, PIC18F4550, MCP1702
MCP212XDM MCP2120/22 Developer's Board MCP2120, MCP2122
MCP212XEV-DB MCP212X Developer’s Daughter Board MCP212X
MCP2140DM-TMPSNS MCP2140 IrDA® Wireless Temp Demonstration Board MCP2140
MCP215X/40EV-DB MCP215X/40 Developer’s Daughter Board MCP2140, MCP2150/55
MCP215XDM MCP215X Data Logger Demonstration Board MCP2150/55
MCP2150DM MCP2150 Developer's Board MCP2150, MCP2155
MCP2200EV-VCP MCP2200 USB to RS232 Demonstration Board MCP2200
MCP23X08EV MCP23X08 8-bit GPIO Expander Evaluation Board MCP23008, MCP23S08
MCP23X17EV MCP23X17 16-bit GPIO Expander Evaluation Board MCP23017, MCP23S17
MCP2515DM-BM MCP2515 CAN Bus Monitor Demonstration Board MCP2515, MCP2551
MCP2515DM-PCTL MCP2515 CAN Controller PICtail™ Demonstration Board MCP2515
MCP2515DM-PTPLS MCP2515 PICtail™ Plus Daughter Board MCP2515, MCP2551
PKSERIAL-I2C1 PICkit™ Serial I2C™ Demonstration Board 24LC02B, MCP9801, MCP3221, TC1321, MCP23008
PKSERIAL-SPI1 PICkit™ Serial SPI Demonstration Board 25LC020A, TC77, MCP3201, MCP4822, MCP41010, MCP6S92, MCP23S08
41Analog & Interface Product Selector Guide
Evaluation, Demonstration and Development Kits
Order # Description Devices Supported
Linear Demonstration and Evaluation Tools
ADM00375 MCP6H04 Evaluation Board MCP6H04
ARD00354 MCP6N11 and MCP6V2X Wheatstone Bridge Reference Design MCP6N11, MCP6001, MCP6V26, MCP6V27, PIC18F2553
MCP6031DM-PTPLS MCP6031 Photodiode PICtail™ Plus Demonstration Board MCP6031
MCP651EV-VOS MCP651 Input Offset Evaluation Board MCP651
MCP661DM-LD MCP661 Line Driver Demonstration Board MCP661, MCP662, MCP665
MCP6S22DM-PICTL MCP6S22 PGA PICtail™ Demonstration Board MCP6S22
MCP6S2XEV MCP6S2X PGA Evaluation Board MCP6S2X
MCP6SX2DM-PCTLPD MCP6SX2 PGA Photodiode PICtail™ Demonstration Board MCP6S22/92
MCP6SX2DM-PCTLTH MCP6SX2 PGA Thermistor PICtail™ Demonstration Board MCP6S22/92
MCP6V01DM-VOS MCP6V01 Input Offset Demonstration Board MCP6V01, MCP6V03, MCP6V06, MCP6V08
MCP6V01RD-TCPL MCP6V01 Thermocouple Auto-Zeroed Reference Design MCP6V01
MCP6XXXEV-AMP1 MCP6XXX Amplifier Evaluation Board 1 MCP6021
MCP6XXXEV-AMP2 MCP6XXX Amplifier Evaluation Board 2 MCP6021
MCP6XXXEV-AMP3 MCP6XXX Amplifier Evaluation Board 3 MCP6021
MCP6XXXEV-AMP4 MCP6XXX Amplifier Evaluation Board 4 MCP6021
MCP6XXXDM-FLTR Active Filter Demonstration Board Kit MCP6271
PIC16F690DM-PCTLHS Humidity Sensor PICtail™ Demonstration Board MCP6291, PIC16F690
Analog Blank Evaluation Boards
SC70EV SC70-6 and SOT-23-6/8 to DIP-8 Evaluation Board SC70-6/5/3, SOT-23-8/6/5/3, and DIP-8 Devices
SOIC8EV SOIC/MSOP/TSSOP/DIP 8-pin Evaluation Board 8-pin SOIC, MSOP, TSSOP, DIP Devices
SOIC14EV SOIC/TSSOP/DIP 14-pin Evaluation Board 14-pin SOIC, TSSOP, DIP Devices
TSSOP20EV 20-pin TSSOP and SSOP Evaluation Board TSSOP-20/16/14/8 and SSOP-20
VSUPEV SOT-23-3 Voltage Supervisor Evaluation Board SOT-23-3 Devices
VSUPEV2 SOT-23-5/6 Voltage Supervisor Evaluation Board SOT-23-5, SOT-23-6 Devices
Miscellaneous Analog Demonstration and Evaluation Tools
ADM00308 MTS2916A Dual Full-Bridge Stepper Motor Driver Evaluation Board MTS2916A
ADM00344 RE46C190 Demonstration Board RE46C190
EFIELDEV Electrical Field Evaluation Board N/A
HFIELDEV Magnetic Field Evaluation Board N/A
INTRFCEV PSRR and Digital Noise Evaluation Board N/A
Analog Design Development Tools
42 Analog & Interface Product Selector Guide
Thermal Management ProductsMCP9700 Thermistor Demo Board (MCP9700DM-TH1)
The MCP9700 Thermistor Demo Board contains the analog circuitry to measure temperature . The board uses BC Components’ 232264055103 NTC thermistor to convert temperature to resistance . The thermistor is placed in a voltage divider which converts resistance to voltage . This voltage is filtered
and placed at the MCP6S22 Programmable Gain Amplifier’s (PGA) CH0 input . The PGA gains and buffers the thermistor .
PT100 RTD Evaluation Board (TMPSNS-RTD1)This board demonstrates how to bias a Resistive Temperature Detector (RTD) and accurately measure temperature . Up to two RTDs can be connected . The RTDs are biased using constant
current source and the output voltage is scaled using a differential amplifier . The output is then connected to a 12-bit differential Analog-to-Digital Converter (ADC) MCP3301 . The ADC outputs serial data to a PIC18F2550 device using a Serial Peripheral Interface (SPI) . The data is transmitted to a PC using a USB interface . A Microsoft Excel® macro is used as a Graphical User Interface (GUI) to acquire the data . The acquired data is stored in an Excel worksheet and graphed as a real-time strip chart display .
MCP9800 Temperature Data Logger Demo Board(MCP9800DM-DL)
Allows users to store up to 128,000 temperature readings from the MCP9800 sensor to the 24LC1025, Microchip’s 1024 Kbit EEPROM . A PIC16F684 MCU communicates
with the sensor and EEPROM . In addition, the PIC MCU interfaces to a PC using the PICkit™ 1 Flash Starter Kit and transfers the temperature readings from the EEPROM to the PC . Microsoft Excel® can be used to view the data .
Mixed Signal ProductsMCP3901 and PIC18F65J90 Shunt Meter Reference Design (ARD00342)
The MCP3901 and PIC18F65J90 Energy Meter Reference Design is a fully functional IEC Class 0 .5 compliant single-phase meter . This low-cost design does not use any transformers and requires few external components . The PIC18F65J90 directly
drives the LCD and includes both an isolated USB connection for meter calibration and access to the device power calculations . The system calculates active energy, active power, RMS current, RMS voltage, reactive energy, reactive power, apparent power, and other typical power quantities .
MCP3421 Battery Fuel Gauge Demonstration Board(MCP3421DM-BFG)
This board is used to demonstrate the MCP3421 18-bit delta-sigma ADC for battery fuel gauging applications . It includes two MCP3421 devices, MCP73831 (single cell Li-Ion/
Li-Polymer Charger) and PIC18F4550 MCU . The board measures: (1) the battery voltage and (2) the current coming out from the battery in the discharging mode and into the battery in the charging mode using the ADC device (if charging mode is enabled (optional)) . It calculates the total fuel used and also fuel remaining .
MCP4725 PICtail Plus Daughter Board(MCP4725DM-PTPLS)
This daughter board demonstrates the MCP4725 (12 bit DAC with non-volatile memory) features using the Explorer 16 Development Board and the PICkit Serial Analyzer .
MCP42XX PICtail Plus Daughter Board(MCP42XXDM-PTPLS)
The MCP42XX PICtail Plus Daughter Board is used to demonstrate the operation of the MCP42XX Digital Potentiometers . The operation of the
MCP41XX devices is similar to the MCP42XX devices . Therefore, this demo board can be used as a development platform for either device family . This board is designed to be used in conjunction with either the PIC24 Explorer 16 Demo Board or the PICkit Serial Analyzer .
Power Management ProductsMCP1631HV Multi-Chemistry Battery ChargerReference Design (MCP1631RD-MCC1)
This reference design is a complete stand-alone constant current battery charger for NiMH, NiCd or constant current/constant voltage for Li-Ion battery packs . When charging NiMH or NiCd batteries, the reference design is capable of charging one,
two, three or four batteries connected in series and one or two series batteries for Li-Ion . This board utilizes the MCP1631HV (high-speed PIC MCU PWM TSSOP-20) and PIC16F883 (28-pin SSOP) .
MCP73871 Demo Board with Voltage ProportionalCurrent Control (MCP73871DM-VPCC)
The MCP73871 Demo Board with Voltage Proportional Current Control is designed to demonstrate Microchip’s stand-alone linear Li-Ion battery charger with system power path and load sharing management control
solution . The MCP73871 integrates the required elements to meet design challenges when developing new Li-Ion/Li-Polymer battery powered products .
Featured Analog Development Tools
43Analog & Interface Product Selector Guide
LIN Serial Analyzer (APGDT001)The LIN Serial Analyzer development system enables a Personal Computer (PC) to communicate with a LIN (Local Interface Network) bus . The PC program uses a graphical user interface to enter
and display message frames occurring on the target bus .
USB to UART Converter Evaluation Board(MCP2200EV-VCP)
The MCP2200EV-VCP is a USB-to-RS232 development and evaluation board for the MCP2200 USB-to-UART device . The board allows for easy demonstration and
evaluation of the MCP2200 . The accompanying software allows the special device features to be configured and controlled . The board is powered from USB and has a test point associated with each GPIO pin . In addition, two of these pins are connected to LEDs which can be used to indicate USB-to-UART traffic when the associated pins are configured as TxLED and RxLED pins respectively .
Linear ProductsMCP6V01 Thermocouple Auto-ZeroedRef Design Board (MCP6V01RD-TCPL)
The MCP6V01 design board demonstrates how to use a difference amplifier system to measure Electromotive Force (EMF) voltage at
the cold junction of thermocouple in order to accurately measure temperature of the thermocouple bead . This can be done by using the MCP6V01 auto-zeroed op amp because of its ultra low offset Voltage (VOS) and high Common Mode Rejection Ratio (CMRR) .
MCP6N11 and MCP6V2X Wheatstone Bridge Reference Design (ARD00354)
This board demonstrates the performance of Microchip’s MCP6N11 instrumentation amplifier (INA) and a traditional three op amp INA using Microchip’s MCP6V26 and MCP6V27 auto-zeroed op amps . The
input signal comes from an RTD temperature sensor in a Wheatstone bridge . Real world interference is added to the bridge’s output, to provide realistic performance comparisons . Data is gathered and displayed on a PC, for ease of use .
MCP6H04 Evaluation Board (ADM00375)The MCP6H04 Evaluation Board is intended to support an instrumentation amplifier and show the capability of the MCP6H04 operational amplifier . It uses a quad op amp in a difference amplifier configuration with
input buffers and voltage reference . The test points for the power supply, ground, input signals, output signals, and voltage reference allow lab equipment to be connected to the board .
MCP73X23 OVP Lithium Iron Phosphate BatteryCharger Evaluation Board (MCP73X23EV-LFP)
The MCP73X23 Lithium Iron Phosphate Battery Charger Evaluation board demonstrates the features of Microchip’s MCP73123 and MCP73223
Lithium Iron Phosphate (LiFePO4) Battery Charge Management Controller with Input Overvoltage Protection .
MCP7383X Li-Ion System Power Path Management Reference Design (MCP7383XRD-PPM)
This reference design is developed to assist product designers in reducing product design cycle and time by utilizing Microchip’s stand-alone Li-Ion battery charge management controllers
with system power path management . Due to the natural characteristics of Li-Ion/Li-Polymer batteries, they are the most popular power sources for mobile devices, however, extra care in design is always important . System Power Path Management allows end-users to charge their batteries without interruption .
MCP1640 Sync Boost Converter Evaluation Board(MCP1640EV-SBC)
The MCP1640 Synchronous Boost Converter Evaluation board demonstrates the MCP1640 in two boost-converter applications with multiple output voltages . It can be used to evaluate both package options (SOT-23-6 and 2 × 3-8 DFN) . This board was developed to help engineers reduce the product design cycle time .
MCP1252 Charge Pump Backlight Demo Board (MCP1252DM-BKLT)
The MCP1252 board demonstrates the use of a charge pump device in an LED application and acts as a platform to evaluate the MCP1252 device in general . Light intensity is
controlled uniformly through the use of ballast resistors . A PIC10F206 MCU provides an enable signal to the MCP1252 and accepts a push-button input that allows the white LEDs to be adjusted to five different light intensities .
Interface ProductsMCP2515 CAN Bus Monitor Demo Board(MCP2515DM-BM)
The MCP2515 CAN Bus Monitor Demo board kit contains two identical boards which can be connected together to create a simple two node Controller Area Network (CAN) bus, which can be
controlled and/or monitored via the included PC interface . The board(s) can also be connected to an existing CAN bus .
controlled uniformly through the use of ballast resistors .
Featured Analog Development Tools
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11/29/11
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