AVANCE DX AQR ASUS36 i/o20 35 i/o19 34 i/o18 33 i/o17 32 i/o16 31 i/o15 30 i/o14 29 epld910lc40...
Transcript of AVANCE DX AQR ASUS36 i/o20 35 i/o19 34 i/o18 33 i/o17 32 i/o16 31 i/o15 30 i/o14 29 epld910lc40...
AQR
Amplitude Setting Unit SingleTechnical Manual
BRUKER
Version
001The information in this manual may be altered without notice.
BRUKER accepts no responsibility for actions taken as a resultof use of this manual. BRUKER accepts no liability for any mis-takes contained in the manual, leading to coincidental damage,whether during installation or operation of the instrument. Un-authorised reproduction of manual contents, without writtenpermission from the publishers, or translation into another lan-guage, either in full or in part, is forbidden.
This manual was written by
BARTHÉLÉMY Philippe
© October 29, 1998: Bruker SA
Wissembourg, France
Manual P/N: Z31485DWG-Nr: 1187001
Contents
Contents ............................................................... 3
Index ..................................................................... 5
1 ASU Single Channel ............................................... 7
2 Interface .................................................................112.1 Inputs / Ouputs Connectors ............................................... 17
3 MMA Unit............................................................... 19
4 Specifications ....................................................... 334.1 Characteristics of Amplitude Setting Unit Single Channel ... 33
RF specifications ...........................................................33Amplitude control ...........................................................33Safety switch .................................................................33Dynamics .......................................................................34Phase shift ....................................................................34Isolation (SPENAB CMD), (MOD & MULT at max. level) .34Output noise level ..........................................................34Switching time ...............................................................34DC requirements ............................................................34Operating temperature ...................................................35
Figures ................................................................ 37
Tables .................................................................. 39
Technical Manual Version 001 BRUKER 3 (41)
Contents
4 (41) BRUKER Technical Manual Version 001
Index
W
W4B132115 B ....................................................................................................... 9W4B132129 B ..................................................................................................... 20W4D132104 ........................................................................................................ 14W4L131102 B ..................................................................................................... 31W4L131509 B ..................................................................................................... 27W4L131510 B ..................................................................................................... 22W4L132131 B ....................................................................................................... 8W4L132197......................................................................................................... 13W4S131509 B ..................................................................................................... 26W4S131510 B ..................................................................................................... 21W4S132081 ........................................................................................................ 30W4S132197 ........................................................................................................ 12W4W132130 B .................................................................................................... 10
Technical Manual Version 001 BRUKER 5 (41)
Index
6 (41) BRUKER Technical Manual Version 001
1ASU Single Channel1
Technical Manual Version 001 BRUKER 7 (41)
Figure 1.1. Amplitude Setting Unit Single Channel Location
8 7 6 5 4 3 2 1
A
B
C
D
12345678
D
C
B
A
ASUS
AO1
-8V
+8V
+5V
AI1
AQRECL03
AMPLITUDE SETTING UNIT SINGLEFRONT PANEL DESIGN
ART: W1345128 EC: 03 DRAWN:DATE:
APPROV:DATE:
DWG:
DW06/10/98
W4L132131
29/10/98PHB
VISA:
VISA:
SHEET:B 1/1
8 (41) BRUKER Technical Manual Version 001
Figure 1.2. Amplitude Setting Unit Single Channel Block Diagram
8 7 6 5 4 3 2 1
A
B
C
D
12345678
D
C
B
A
AI1 CUBICAL
+ -
MODULATION
SQUARE
+
MULTIPLICATION
-
ATTENUATOR
ATTENUATION
20db 40db
AO1
SPFMULSPFMOD
SCSICONNECTOR INTERFACE SUPPLY
CONNECTOR
AMPLITUDE SETTING UNIT SINGLERF BLOCK DIAGRAM
ART: W1345128 EC: 03 DRAWN:DATE:
APPROV:DATE:
DWG:
DW06/10/98
W4B132115
29/10/98PHB
VISA:
VISA:
SHEET:B 1/1
MULTIPLICATIONMODULATION
Technical Manual Version 001 BRUKER 9 (41)
Figure 1.3. Amplitude Setting Unit Single Channel Wiring Diagram
8 7 6 5 4 3 2 1
A
B
C
D
12345678
D
C
B
A
FRONT PANELP/N:W1342135 TP11
AT40
TP19 TP24 TP12
-8V AT20+5V
TP28 TP18 TP1 TP5
-8V+8V MUL+MUL-
TP9
SPFMUL
REAR PANELON FRAME
P/N:W1342136
J3RFMOD
J2RFMOD
TP27
+8V
TP17
-8V
P/N:W1345134
MMA UNIT
TP2TP6TP10
SPFMOD MOD+ MOD-
J1RFLOT
P1
J4RFMMA
TP23
+5V
A01
AI1
-8V
J1SCSI 50 PIN
CONNECTOR
+5V
+8V
INTERFACEP/N:W1346151
J2
CONNECTORDIN 48 PIN
AMPLITUDE SETTING UNIT SINGLE
ART: W1345128
RF WIRING DIAGRAM
EC: 03 DRAWN:DATE:
APPROV:DATE:
DWG:
DW06/10/98
W4W132130
29/10/98PHB
VISA:
VISA:
SHEET: 1/1B
10 (41) BRUKER Technical Manual Version 001
2Interface 2
Technical Manual Version 001 BRUKER 11 (41)
Figure 2.1. Interface Schematic
8 7 6 5 4 3 2 1
A
B
C
D
12345678
D
C
B
A
+5V+5V
U1
SPFMUL1
CE122UF35V
TP9
TP10
C1100NF
+5V
2 3 4 5 6
1RS3
4.7K
+5V
2 3 4 5 6
1RS24.7K
+5V
2 3 4 5 6
1RS14.7K
TP1
TP2
TP3
2 3 4 5 6 7 8 91011121314151617181920212223242526272829303132333435
1
363738394041424344454647484950
J1SCSI
MULF1-
MODF1-AT20F1AT40F1BLKF1SPFF1OBSF1
MULF2-
MODF2-AT20F2AT40F2BLKF2SPFF2OBSF2EPTUNE ONOBSF3OBSF4
MULF1+
MODF1+
TP4
TP5
TP6
+5V
I/O16
IN35
IN24
IN13
CLK12
VCC1
VCC44
IN1243
IN1142
IN1041
I/O2440
I/O2
7
I/O3
8
I/O4
9
I/O5
10
I/O6
11
I/O7
12
I/O8
13
I/O9
14
I/O10
15
I/O11
16
I/O12 18
IN4 19
IN5 20
IN6 21
GND 22
GND 23
CLK2 24
IN7 25
IN8 26
IN9 27
I/O13 28
I/O23
38
I/O22
37
I/O21
36
I/O20
35
I/O19
34
I/O18
33
I/O17
32
I/O16
31
I/O15
30
I/O14
29
U1EP910LC-40
ASU03/01
SPFMOD1
AT40FM1
AT20FM1
TP11
TP12
SPFMUL2
AT20FM2
AT40FM2
SPFMOD2
TP13
TP14
TP15
TP16
R10
TP7
TP8
2 3 4 5 6 7 8 910111213141516
1
J2A
MULF2+
MODF2+
181920212223242526272829303132
17
J2B
2A 3A 4A
11A12A13A14A15A16A
10A
1A
5A 6A 7A 8A 9A
+15V
-15V
+5V
SPENAB
A2
SDA
-8V
TP17F1
TP18F1
TP19F1
TP20F2
TP21F2
TP22F2
+5V
TP23F1
TP24F1
TP25F2
TP26F2
+8V
TP27F1
TP28F1
TP29F2
TP30F2
TP32F2
TP31F1
+5V +5V +5V
LD1+5V
R1161.9
R1015
+5V
3X1N4148
D2 D3
C210NF
+5V
+5V
D1
R222.1K R6
10K
+15V
-15V
+5V
A1
343536373839404142434445464748
33
J2C
10B11B12B13B14B15B16B
2B 1B
3B 4B 5B 6B 7B 8B 9B
1C
10C11C12C13C14C15C16C
2C 3C 4C 5C 6C 7C 8C 9C
+15V
-15V
+5V
A0
EP
SCL
SDA
SCL
+5V
R322.1K
R4182
R5182
+5V
A0 1A12A2 3SCL
6
WP7
SDA5
VCC8
GND 4
U2X24022
3X22.1K
R9R8R7
A0A1A2
-8V
C4100NF
CE510UF16V
DZ23.9V
LD3-8V
R1568.1
-15V
CE422UF20V
VI1 VO 2GND
3
U4MC7908CT
-8V
+8V
CE310UF16V
LD2+8V
C3100NF
+15V
CE222UF20V
VI1 VO 2GND
3
U3MC7808CT
+8V
DZ13.9V R12
68.1
R1368.1
R1468.1
ART: W1346151
AMPLITUDE SETTING UNITGENERAL INTERFACE BOARD
EC: 00 DRAWN:DATE:
APPROV:DATE:
DWG:
DW
W4S132197
22/10/98
PHB29/10/98
R1668.1
R1768.1
VISA:
VISA:
SHEET: 1/1
12 (41) BRUKER Technical Manual Version 001
12345678
Te
Figure 2.2.
Interface Location
2 1
A
B
C
D
VISA:
VISA:
SHEET: 1/1
S.a.d.i.s
SPECTROSPIN
TP28
TP24
TP19
TP18
TP12
TP11
TP9
TP5
TP1
chn
ical Man
ual V
ersion
001B
RU
KE
R13 (41)
8 7 6 5 4 3
D
C
B
A ART:
ASU
W1346151 DRAWN:DATE:
APPROV:DATE:
DWG:
EC: DW22/10/98
W4L132197
29/10/98PHB
GENERAL BOARD
CI : W4P132749A
W4P132749A
GND
J1
U2
A
J2
U3 U4
U1
RS1RS2
RS
3
R15R17
R16
R1
2R
14R
13
R10
R11
C1
R1
R7
R8
R9
R6C2
R4R5
R2
R3
C3
C4
CE3 CE5
DZ
2
D3
D2
D1
DZ
1
CE2 CE4
TP31
TP32
CE1
LD1LD3
LD2
TP30
TP29
TP27
TP26
TP25
TP23
TP22
TP21
TP20
TP17
TP16
TP15
TP14
TP13
TP10TP8
TP7
TP6
TP4
TP3
TP2
+
+
+
+
Figure 2.3. PAL ASU03/01 Logical Program
8 7 6 5 4 3 2 1
A
B
C
D
12345678
D
C
B
A
TUNE ONEP
BLKLO
F1>LOF2>LO
F12/F34F4>LOF3>LO
OBSF4OBSF3
VCC
SPFF2BLKF2AT40F2
OBSF2
VCC
I/O1
6
IN3
5
IN2
4
IN1
3
CLK1
2
VCC
1
VCC
44
IN12
43
IN11
42
IN10
41
I/O24
40
I/O2 7
I/O3 8
I/O4 9
I/O5 10
I/O6 11
I/O7 12
I/O8 13
I/O9 14
I/O10 15
I/O11 16
I/O12
18
IN4
19
IN5
20
IN6
21
GND
22
GND
23
CLK2
24
IN7
25
IN8
26
IN9
27
I/O13
28
I/O23 38
I/O22 37
I/O21 36
I/O20 35
I/O19 34
I/O18 33
I/O17 32
I/O16 31
I/O15 30
I/O14 29
EPLD910LC40
ASU03/0117/10/94
OBSF1AT20F2
SPFF1BLKF1AT40F1AT20F1SPENABSPFMUL1SPFMOD1AT40FM1
AT20FM1 SPFMUL2
SPFMOD2
AT20FM2AT40FM2
TUNEC
38
37
36
F1>LO
F2>LO
F3>LO
AND2
NAND2
NAND2
AND2
AND2
NOT
NOT
NOT
NOT
43
8
3
EP
OBSF1
OBSF2
OBSF3
OBSF4
41
40
NOT
AND2
AND2
AND2
NAND2
AND2
NOT
AND2
AND2
NAND2
35
34
33BLKLO
F4>LO
F12/F34
16
18
AT40FM1
AT20FM1
TUNEC32
NOR2
NOR2
NOT
NOT
11
12
42
AT20F1
AT40F1
TUNE ON
BLKF2
AT20F2
AT40F2
BLKF1
5
6
7
10
NOT
NOT
NOR2
NOR2
30
31
AT40FM2
AT20FM2
SPFMOD229
SPFMUL1
SPFMOD1
14
15
OR2
OR2
OR2
9
4
13
SPFF2
SPFF1
SPENAB
ART: W1356607
ASU03/01PAL ASU INTERFACE
OR2
EC: 01 DRAWN:DATE:
APPROV:DATE:
DWG:
DW17/10/94
W4D132104
17/10/94PHB
SPFMUL228
VISA:
VISA:
SHEET: 1/1
S.a.d.i.s
SPECTROSPIN
14 (41) BRUKER Technical Manual Version 001
Value Table
+-- Value Tab Head ----------------------------------------------------------+¦ Part:W1346151 Drawing:W4S132197 Copy In Part: Draw: ¦¦ Desc:AQR ASU CIRCUIT INTERFACE ECL:0 Modified:22/10/98 By:DW ¦+-- Value Tab ---------------------------------------------------------------+¦ Pos. Component Local Description ¦¦ C1 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C2 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C3 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C4 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ CE1 10017 COND CHIMI RAD 22U 35V 6.3X7 ¦¦ CE2 51557 COND CMS TANTAL 22U 20V 20% ¦¦ CE3 51559 COND CMS TANTAL 10U 16V 20% ¦¦ CE4 51557 COND CMS TANTAL 22U 20V 20% ¦¦ CE5 51559 COND CMS TANTAL 10U 16V 20% ¦¦ CI1 W1348018 CI ASU2/LOT CIRCUIT INTERFACE ¦¦ D1 2967 DIODE 1N4148 ¦¦ D2 2967 DIODE 1N4148 ¦¦ D3 2967 DIODE 1N4148 ¦¦ DZ1 34639 DIODE Z BZX55C 3.9V 500MW ¦¦ DZ2 34639 DIODE Z BZX55C 3.9V 500MW ¦¦ ICSU1 15771 IC SUPPORT PLCC44 ¦¦ J1 59837 CN F 50 C PRT SCSI/1.27 ¦¦ J2 22744 CN M 48 C PRT DIN41612-C/2 ¦¦ LD1 21866 OPTO LED 3MM C PRT BOI VR R2.5 ¦¦ LD2 21866 OPTO LED 3MM C PRT BOI VR R2.5 ¦¦ LD3 21866 OPTO LED 3MM C PRT BOI VR R2.5 ¦¦ R1 21352 RES CMS 0 1% 0.25W 1206 ¦¦ R2 21327 RES CMS 22.1K 1% 0.25W 1206 ¦¦ R3 21327 RES CMS 22.1K 1% 0.25W 1206 ¦¦ R4 20727 RES CMS 182 1% 0.25W 1206 ¦¦ R5 20727 RES CMS 182 1% 0.25W 1206 ¦¦ R6 20750 RES CMS 10K 1% 0.25W 1206 ¦¦ R7 21327 RES CMS 22.1K 1% 0.25W 1206 ¦¦ R8 21327 RES CMS 22.1K 1% 0.25W 1206 ¦¦ R9 21327 RES CMS 22.1K 1% 0.25W 1206 ¦¦ R10 20713 RES CMS 15 1% 0.25W 1206 ¦¦ R11 8853 RES CMS 61.9 1% 0.25W 1206 ¦¦ R12 20721 RES CMS 68.1 1% 0.25W 1206 ¦¦ R13 20721 RES CMS 68.1 1% 0.25W 1206 ¦¦ R14 20721 RES CMS 68.1 1% 0.25W 1206 ¦¦ R15 20721 RES CMS 68.1 1% 0.25W 1206 ¦¦ R16 20721 RES CMS 68.1 1% 0.25W 1206 ¦¦ R17 20721 RES CMS 68.1 1% 0.25W 1206 ¦¦ RS1 9818 RES RES 4.7KX5 2% SIL6 ¦¦ RS2 9818 RES RES 4.7KX5 2% SIL6 ¦¦ RS3 9818 RES RES 4.7KX5 2% SIL6 ¦¦ TP1 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP2 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP3 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP4 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP5 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP6 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP7 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP8 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP9 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP10 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP11 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP12 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP13 35779 ACCBL LANGUETTE PL 2.8 PRT ¦
Technical Manual Version 001 BRUKER 15 (41)
Interface
+-- Value Tab Head ----------------------------------------------------------+¦ Part:W1346151 Drawing:W4S132197 Copy In Part: Draw: ¦¦ Desc:AQR ASU CIRCUIT INTERFACE ECL:0 Modified:22/10/98 By:DW ¦+-- Value Tab ---------------------------------------------------------------+¦ Pos. Component Local Description ¦¦ TP14 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP15 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP16 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP17 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP18 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP19 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP20 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP21 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP22 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP23 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP24 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP25 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP26 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP27 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP28 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP29 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP30 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP31 59995 ACCBL PICOT FOURCHE D1.1MM ¦¦ TP32 59995 ACCBL PICOT FOURCHE D1.1MM ¦¦ TP3 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP4 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP5 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP6 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP7 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP8 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ TP9 35779 ACCBL LANGUETTE PL 2.8 PRT ¦¦ U1 W1356607 IC 910/ASU CIRCUIT INTERFACE ¦¦ U2 22952 IC 24022/E2PR X24022S8 SO8 ¦¦ U3 4978 IC 7808/VREG MC7808CT TO220 ¦¦ U4 12156 IC 7908/VREG MC7908CT TO220 ¦+------------------------------------------------------------------------------+
16 (41) BRUKER Technical Manual Version 001
Inputs / Ouputs Connectors
Inputs / Ouputs Connectors 2.1
Table 2.1. Front Panel Connector J1
Pins Descriptions Pins Descriptions
01 NC 26 NC
02 NC 27 NC
03 NC 28 NC
04 AGND 29 AGND
05 MULF1- 30 MULF1+
06 AGND 31 AGND
07 MODF1- 32 MODF1+
08 AT20F1 33 DGND
09 AT40F1 34 DGND
10 BLKF1 35 DGND
11 SPFF1 36 DGND
12 OBSF1 37 DGND
13 AGND 38 AGND
14 MULF2- 39 MULF2+
15 AGND 40 AGND
16 MODF2- 41 MODF2+
17 AT20F2 42 DGND
18 AT40F2 43 DGND
19 BLKF2 44 DGND
20 SPFF2 45 DGND
21 OBSF2 46 DGND
22 NC 47 DGND
23 TUNE ON 48 DGND
24 NC 49 DGND
25 NC 50 DGND
Technical Manual Version 001 BRUKER 17 (41)
Interface
Table 2.2. Rear Panel Connector J2
Pins Descriptions Pins Descriptions Pins Descriptions
1A NC 1B NC 1C NC
2A NC 2B NC 2C NC
3A Adresse 1 3B Adresse 2 3C Adresse 3
4A NC 4B NC 4C NC
5A NC 5B NC 5C NC
6A SDA 6B NC 6C SCL
7A NC 7B NC 7C I2CGND
8A NC 8B NC 8C EP
9A SPENAB 9B SPENABGND 9C EPGND
10A +5V 10B +5V 10C +5V
11A GND 11B GND 11C GND
12A NC 12B NC 12C NC
13A NC 13B NC 13C NC
14A +15V 14B +15V 14C +15V
15A GND 15B GND 15C GND
16A -15V 16B -15V 16C -15V
18 (41) BRUKER Technical Manual Version 001
3MMA Unit 3
Technical Manual Version 001 BRUKER 19 (41)
12345678
20 (4
2 1
A
B
C
D
LF
OD
OD
V
VISA:
VISA:
B SHEET: 1/1
Figure 3.1.
Modulation, M
ultiplication & A
ttenuator Block D
iagram
1)B
RU
KE
RT
echn
ical Man
ual V
ersion
001
-8V
8 7 6 5 4 3
D
C
B
A
AT40 -8V AT20-5V -8V+8V MUSP
MUL- MUL+
RFMSQUARERFMUL RFMULMULTIPLICATION
ATTENUATORP/N:W1301948
RFMMAOUTAO
AI RFLOTIN RFM
CUBICAL
P/N:W1301915
+5V SPFMOD
MOD-MOD+ +8
ART:
AMPLITUDE SETTING UNITMMA RF BLOCK DIAGRAM
W1345134 DRAWN:DATE:
APPROV:DATE:
DWG:
EC: 03 DW09/10/98
W4B132129
PHB29/10/98
MODULATION
P/N:W1301914
12
Te
345678
Figure 3.2.
Modulation S
chematic
2 1
A
B
C
D
+8V
F1+8V+8V
F3+5V+5V
CE122UF20V
CE222UF20V
L610UH
+8V
C39100NF
R1961.9
1
2
3
6
5
4
TR2CT-01
A3RAM-7
A4MAV11
R21150
C3210NF
C3010NF
C31100NF
L31.5UH
CX8
ST2RF OUT
R24221
R25221
R2324.3
R2275C33
100NF
C364.7PF
C341NF
L41.5UH
-8V F2-8V
CE322UF20V
RX6 CX6
R2061.9
C2710NF
01915
TTING UNITLATION
DRAWN:DATE:
APPROV:DATE:
DWG:
EC: DW07/03/95
03
W4S131510
07/03/95PHB
VISA:
VISA:
SHEET: 1/1B
S.a.d.i.s
SPECTROSPIN
chn
ical Man
ual V
ersion
001B
RU
KE
R21 (41)
8 7 6 5 4 3
D
C
B
A
+8V
+8VR15100
C17100NF
C22100NF
C21100NF
L11.5UH
CX4
+8V
+8V
R31200
R851.1
R6100
R10150
C40100PF
C9100NF
C8100NF
C38100NF
L512NH
+8V RX4
R48150C58
100NF
+8V
+8V
R42100
R45100
C48100NF
C47100NF
C53100NF
CX1RX1
R3510
R3451.1
R38100
C441NF
C431NF
L712NH
1 2 3 4 5
6 7 8
SW1NE630D
+5V
C61100NF
C421PF
C631NF
ST1RF IN
CP1SPFMOD
R33332
R3247
C4510NF
C6410NF
C6227PF
RX2 CX2
1
2
3
6
5
4
TR3CT-01
X1 7X2 8
Y2 2Y1 1
W1 5W2 4
+VS 6
-VS 3
IC3AD834JR
R36562
R37100C46
2.2PF
1
2
3
6
5
4
TR4CT-01
R44100
R46150
R47150
C5010NF
C4910NF
C551NF
C561NF
C571NF
A5RAM-7
1
2
3
6
5
4
TR1CT-01
CX3 RX3 RX5
CX7
C601NF
L81.5UH
CX5
X1 7X2 8
Y2 2Y1 1
W1 5W2 4
+VS 6
-VS 3
IC1AD834JR
A2RAM-7
A1RAM-7
R951.1
R5150
C1110NF
C1010NF
C161NF
C151NF
X1 7
X2 8
Y2 2Y1 1
W1 5
W24
+VS6
-VS 3
IC2AD834JR
R13562
R14562
R12200
R1861.9
C41100PF
C2310NF
C2810NF
C191NF
C201NF
L21.5UH
-8V
+8V
R1761.9
R1682.5
C2410NF
C2910NF
C18100NF
C25100NF
C26100NF
-8V
+8V
R782.5
R11150
C1410NF
C12100NF
C13100NF
-8V
+8V
R29200
R30200
R4382.5
C5410NF
C51100NF
C52100NF
R28150
CP2MOD+
CP3MOD-
R39392
R41392R26
22.1
R2722.1
R40130
ART: W13
AMPLITUDE SECUBICAL MODU
12345678
22 (4
Figure 3.3.
Modulation Location
2 1
A
B
C
D
VISA:
VISA:
B SHEET: 1/1
S.a.d.i.s
SPECTROSPIN
1)B
RU
KE
RT
echn
ical Man
ual V
ersion
001
8 7 6 5 4 3
D
C
B
A ART:
ASU
W1301915 DRAWN:DATE:
APPROV:DATE:
DWG:
EC: RC23/03/95
W4L131510
23/03/95PHB
CUBICAL MODULATION
CI : W4P131510B
L7 L5
R20
R19
R18 R17
R9
R8
R31
R4
6
R11
R1
0
R5
C54
C27 C
24
C23C14
C11
C10
C41
C40
C53
C52C5
1C
48
C39
C38
C21
C1
8C
17
C13
R4
5R
44
R38
R3
7
R15
CE
2
L4
L3
L2
L1
W4P131510B BOTTOM SIDE
TR1
TR2
TR3
TR4
ST
2
ST1
L6
L8
CE
1
CE3
IC1IC2
IC3
SW1
A4
RX6
RX5
RX
4 RX3
RX2
RX1
F3CP1CP2
CP3F2F1R
35R6
R4
2
C8
C9
C12
C22
C25
C26
C3
1C
33 C47
C58 C61
C2
8
C2
9
C30C32
C45C
49C
50
C64
R40
R21
R47
R48
R28
R12
R29
R3
0 R26
R27
R24
R25
R23
R33
R39
R41
R32
R3
4
R13
R1
4
R36
R22
R7R16
R43
C15
C16
C19
C20
C34 C
43
C44
C55
C56C57
C60
C63
C42
C46
C62
C36
CX1
CX2
CX3
CX
4
CX5
CX6
CX
7
CX8
A5
A3
A2
A1
+
+
+
Value Table
+-- Value Tab Head ----------------------------------------------------------+¦ Part:W1301915 Drawing:W4S131510B Copy In Part: Draw: ¦¦ Desc:ASU MODULATION AU CUBE ECL:0 Modified:06/03/95 By:DEHF ¦+-- Value Tab ---------------------------------------------------------------+¦ Pos. Component Local Description ¦¦ A1 56535 IC 7/HF RAM-7 13DB EQU.MSA0735 ¦¦ A2 56535 IC 7/HF RAM-7 13DB EQU.MSA0735 ¦¦ A3 56535 IC 7/HF RAM-7 13DB EQU.MSA0735 ¦¦ A4 31201 IC 11/HF MAV-11 ¦¦ A5 56535 IC 7/HF RAM-7 13DB EQU.MSA0735 ¦¦ C8 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C9 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C10 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C11 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C12 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C13 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C14 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C15 73183 COND CMS CDR12 1N 150V 20% ¦¦ C16 73183 COND CMS CDR12 1N 150V 20% ¦¦ C17 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C18 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C19 73183 COND CMS CDR12 1N 150V 20% ¦¦ C20 73183 COND CMS CDR12 1N 150V 20% ¦¦ C21 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C22 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C23 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C24 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C25 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C26 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C27 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C28 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C29 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C30 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C31 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C32 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C33 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C34 73183 COND CMS CDR12 1N 150V 20% ¦¦ C36 73180 COND CMS CDR12 4.7P 150V 0.25P ¦¦ C38 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C39 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C40 20990 COND CMS 1206 100P 50V 5% NPO ¦¦ C41 20990 COND CMS 1206 100P 50V 5% NPO ¦¦ C42 73410 COND CMS CDR12 1P 150V 0.25P ¦¦ C43 73183 COND CMS CDR12 1N 150V 20% ¦¦ C44 73183 COND CMS CDR12 1N 150V 20% ¦¦ C45 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C46 73179 COND CMS CDR12 2.2P 150V 0.25P ¦¦ C47 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C48 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C49 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C50 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C51 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C52 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C53 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C54 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C55 73183 COND CMS CDR12 1N 150V 20% ¦¦ C56 73183 COND CMS CDR12 1N 150V 20% ¦¦ C57 73183 COND CMS CDR12 1N 150V 20% ¦¦ C58 8493 COND CMS 1206 100N 50V 20% X7R ¦
Technical Manual Version 001 BRUKER 23 (41)
MMA Unit
+-- Value Tab Head ----------------------------------------------------------+¦ Part:W1301915 Drawing:W4S131510B Copy In Part: Draw: ¦¦ Desc:ASU MODULATION AU CUBE ECL:0 Modified:06/03/95 By:DEHF ¦+-- Value Tab ---------------------------------------------------------------+¦ Pos. Component Local Description ¦¦ C60 73183 COND CMS CDR12 1N 150V 20% ¦¦ C61 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C62 73182 COND CMS CDR12 27P 150V 20% ¦¦ C63 73183 COND CMS CDR12 1N 150V 20% ¦¦ C64 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ CE1 51557 COND CMS TANTAL 22U 20V 20% ¦¦ CE2 51557 COND CMS TANTAL 22U 20V 20% ¦¦ CE3 51557 COND CMS TANTAL 22U 20V 20% ¦¦ CI1 W1356520 CI MODULATION AU CUBE ¦¦ CP1 59995 ACCBL PICOT FOURCHE D1.1MM ¦¦ CP2 59995 ACCBL PICOT FOURCHE D1.1MM ¦¦ CP3 59995 ACCBL PICOT FOURCHE D1.1MM ¦¦ F1 59995 ACCBL PICOT FOURCHE D1.1MM ¦¦ F2 59995 ACCBL PICOT FOURCHE D1.1MM ¦¦ F3 59995 ACCBL PICOT FOURCHE D1.1MM ¦¦ IC1 56510 IC 834/PAD AD834MULT 0.5GHZSO8 ¦¦ IC2 56510 IC 834/PAD AD834MULT 0.5GHZSO8 ¦¦ IC3 56510 IC 834/PAD AD834MULT 0.5GHZSO8 ¦¦ L1 22874 SELF CMS 1008 1.5UH 10% ¦¦ L2 22874 SELF CMS 1008 1.5UH 10% ¦¦ L3 22874 SELF CMS 1008 1.5UH 10% ¦¦ L4 22874 SELF CMS 1008 1.5UH 10% ¦¦ L5 42179 SELF CMS 1008 12NH 20% ¦¦ L6 30155 SELF 10UH 0.14A ¦¦ L7 42179 SELF CMS 1008 12NH 20% ¦¦ L8 22874 SELF CMS 1008 1.5UH 10% ¦¦ R10 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R11 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R12 8854 RES CMS 200 1% 0.25W 1206 ¦¦ R13 20733 RES CMS 562 1% 0.25W 1206 ¦¦ R14 20733 RES CMS 562 1% 0.25W 1206 ¦¦ R15 20724 RES CMS 100 1% 0.25W 1206 ¦¦ R16 20722 RES CMS 82.5 1% 0.25W 1206 ¦¦ R17 8853 RES CMS 61.9 1% 0.25W 1206 ¦¦ R18 8853 RES CMS 61.9 1% 0.25W 1206 ¦¦ R19 8853 RES CMS 61.9 1% 0.25W 1206 ¦¦ R20 8853 RES CMS 61.9 1% 0.25W 1206 ¦¦ R21 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R22 51836 RES CMS 75 1% 0.25W 1206 ¦¦ R23 56359 RES CMS 24.3 1% 0.25W 1206 ¦¦ R24 20728 RES CMS 221 1% 0.25W 1206 ¦¦ R25 20728 RES CMS 221 1% 0.25W 1206 ¦¦ R26 20715 RES CMS 22.1 1% 0.25W 1206 ¦¦ R27 20715 RES CMS 22.1 1% 0.25W 1206 ¦¦ R28 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R29 8854 RES CMS 200 1% 0.25W 1206 ¦¦ R30 8854 RES CMS 200 1% 0.25W 1206 ¦¦ R31 8854 RES CMS 200 1% 0.25W 1206 ¦¦ R32 73283 RES CMS 47.5 1% 0.25W 1206 ¦¦ R33 20730 RES CMS 332 1% 0.25W 1206 ¦¦ R34 20765 RES CMS 51.1 1% 0.25W 1206 ¦¦ R35 20711 RES CMS 10 1% 0.25W 1206 ¦¦ R36 20733 RES CMS 562 1% 0.25W 1206 ¦¦ R37 20724 RES CMS 100 1% 0.25W 1206 ¦¦ R38 20724 RES CMS 100 1% 0.25W 1206 ¦¦ R39 20731 RES CMS 392 1% 0.25W 1206 ¦
24 (41) BRUKER Technical Manual Version 001
+-- Value Tab Head ----------------------------------------------------------+¦ Part:W1301915 Drawing:W4S131510B Copy In Part: Draw: ¦¦ Desc:ASU MODULATION AU CUBE ECL:0 Modified:06/03/95 By:DEHF ¦+-- Value Tab ---------------------------------------------------------------+¦ Pos. Component Local Description ¦¦ R40 51682 RES CMS 130 1% 0.25W 1206 ¦¦ R41 20731 RES CMS 392 1% 0.25W 1206 ¦¦ R42 20724 RES CMS 100 1% 0.25W 1206 ¦¦ R43 20722 RES CMS 82.5 1% 0.25W 1206 ¦¦ R44 20724 RES CMS 100 1% 0.25W 1206 ¦¦ R45 20724 RES CMS 100 1% 0.25W 1206 ¦¦ R46 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R47 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R48 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R5 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R6 20724 RES CMS 100 1% 0.25W 1206 ¦¦ R7 20722 RES CMS 82.5 1% 0.25W 1206 ¦¦ R8 20765 RES CMS 51.1 1% 0.25W 1206 ¦¦ R9 20765 RES CMS 51.1 1% 0.25W 1206 ¦¦ SW1 56425 IC 630/SA630 S08 ¦¦ TR1 56414 TRSFO 1/1 5-1000MHZ CMS DIP6 ¦¦ TR2 56414 TRSFO 1/1 5-1000MHZ CMS DIP6 ¦¦ TR3 56414 TRSFO 1/1 5-1000MHZ CMS DIP6 ¦¦ TR4 56414 TRSFO 1/1 5-1000MHZ CMS DIP6 ¦+------------------------------------------------------------------------------+
Technical Manual Version 001 BRUKER 25 (41)
12345678
26 (4
2 1
A
B
C
D
CE222UF20V
F1+8V+8V
+8V +8V
A3RAM-7
C3210NF
L31.5UH
L41.5UH
A4MAV11
C31100NF
C33100NF
R21150
C341NF
R2275
R2339.2
ST2RF OUT
CX3
R24150
R25150
-8VF2-8V
CE322UF20V
DRAWN:DATE:
APPROV:DATE:
DWG:
VISA:
VISA:
SHEET:
DW02/03/95
W4S131509
02/03/95
B
PHB
1/1
S.a.d.i.s
SPECTROSPIN
Figure 3.4.
Multiplication S
chematic
1)B
RU
KE
RT
echn
ical Man
ual V
ersion
001
8 7 6 5 4 3
D
C
B
A
+8V+8V
C8100NF
+8V
C22100NF
R15100
C21100NF
+8VC39
100NF
R851.1
+8V
A1RAM-7
R10150
C38100NF
C17100NF
L11.5UH
RX1C9
100NF
C40100PF
C1010NF
R6100CX1
L512NH
C61NF
C31NF
C41PF R2
51.1R310
C51NF
1234 5
678
SW1NE630D
DZ15.1V
300mW
R1270C2
100NF
CE122UF20V
CP1SPFMUL
C3727PF
R3147
C110NF
ST1RF IN
R32332
C710NF
1
2
3
6
5
4
TR1CT-01
RX2
R4200
C1110NF
X17
X28
Y22Y11
W1 5
W2 4
+VS 6
-VS 3
IC1AD834JR
R568.1
C161NF
C151NF
A2RAM-7
C191NF
C201NF
R12200
R13562
R14100 X17
X28
Y22Y11
W1 5
W2 4
+VS 6
-VS 3
IC2AD834JR
C2310NF
C41100PF
C2810NF
R1861.9
R1961.9
1
2
3
6
5
4
TR2CT-01
C3010NF
C351PFRX3
C2410NF
C25100NF
R1682.5
C2910NF
R1761.9
R2061.9
R951.1
+8V
R11150
C1410NF
C18100NF
L21.5UH
-8V
C12100NF
C13100NF
R782.5
CX2
CP2MUL+
R2622.1
R2868.1
R29200
CP3MUL-
R2722.1
R30200
-8V
C26100NF
+8V C2710NF
SQUARE MULTIPLICATION
ART: W1301914
AMPLITUDE SETTING UNIT
EC: 03
12345678
Te
Figure 3.5.
Multiplcation Location
2 1
A
B
C
D
VISA:
VISA:
B SHEET: 1/1
S.a.d.i.s
SPECTROSPIN
chn
ical Man
ual V
ersion
001B
RU
KE
R27 (41)
8 7 6 5 4 3
D
C
B
A ART:
ASU
W1301914 DRAWN:DATE:
APPROV:DATE:
DWG:
EC: RC20/03/95
W4L131509
20/03/95PHB
SQUARE MULTIPLICATION
CI : W4P131509B
TOP SIDE
W4P131509B
C4C6
C5
C3
L5
R5
R20
R19
R18 R17
R9
R8
R2
R1
R1
1
R10
C27
C24C
23
C14
C11
C1
0
C7
C41
C40
C3
9
C38
C21
C1
8
C17
C13
C2
R15
L4
L3
L2
L1
DZ1
CE
2
SW
1
W4P131509B
BOTTOM SIDE
F1 F2 CP3 CP2 CP1
IC1IC2
TR1
TR2
CE3
CE1
ST2
ST1
R3
R6
R1
4C
8
C9
C1
2
C22
C2
5C
26
C31
C3
3
C1
C28
C29
R21
R2
4
R2
5
R4
R29
R30
R26
R27
R3
2R23
R3
1
R13
R28
R2
2
R7
R1
6 R1
2
C32C30
C15
C16
C19
C20
C34
C37
CX3
CX2
CX1
C35
RX2
RX1
RX3
A4
A3
A2
A1
+
+
+
MMA Unit
Value Table
+-- Value Tab Head ----------------------------------------------------------+¦ Part:W1301914 Drawing:W4S131509B Copy In Part: Draw: ¦¦ Desc:ASU MULTIPLICATION AU CARRE ECL:0 Modified:02/03/95 By:DEHF ¦+-- Value Tab ---------------------------------------------------------------+¦ Pos. Component Local Description ¦¦ A1 56535 IC 7/HF RAM-7 13DB EQU.MSA0735 ¦¦ A2 56535 IC 7/HF RAM-7 13DB EQU.MSA0735 ¦¦ A3 56535 IC 7/HF RAM-7 13DB EQU.MSA0735 ¦¦ A4 31201 IC 11/HF MAV-11 ¦¦ C1 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C2 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C3 73183 COND CMS CDR12 1N 150V 20% ¦¦ C4 73410 COND CMS CDR12 1P 150V 0.25P ¦¦ C5 73183 COND CMS CDR12 1N 150V 20% ¦¦ C6 73183 COND CMS CDR12 1N 150V 20% ¦¦ C7 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C8 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C9 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C10 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C11 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C12 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C13 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C14 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C15 73183 COND CMS CDR12 1N 150V 20% ¦¦ C16 73183 COND CMS CDR12 1N 150V 20% ¦¦ C17 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C18 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C19 73183 COND CMS CDR12 1N 150V 20% ¦¦ C20 73183 COND CMS CDR12 1N 150V 20% ¦¦ C21 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C22 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C23 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C24 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C25 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C26 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C27 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C28 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C29 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C30 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C31 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C32 21014 COND CMS 1206 10N 50V 20% X7R ¦¦ C33 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C34 73183 COND CMS CDR12 1N 150V 20% ¦¦ C35 73410 COND CMS CDR12 1P 150V 0.25P ¦¦ C37 73182 COND CMS CDR12 27P 150V 20% ¦¦ C38 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C39 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C40 20990 COND CMS 1206 100P 50V 5% NPO ¦¦ C41 20990 COND CMS 1206 100P 50V 5% NPO ¦¦ CE1 51557 COND CMS TANTAL 22U 20V 20% ¦¦ CE2 51557 COND CMS TANTAL 22U 20V 20% ¦¦ CE3 51557 COND CMS TANTAL 22U 20V 20% ¦¦ CI1 W1356519 CI MULTIPLICATION AU CARRE ¦¦ CP1 59995 ACCBL PICOT FOURCHE D1.1MM ¦¦ CP2 59995 ACCBL PICOT FOURCHE D1.1MM ¦¦ CP3 59995 ACCBL PICOT FOURCHE D1.1MM ¦¦ DZ1 22577 DIODE Z BZX84C 5V1 300MW SOT23 ¦¦ F1 59995 ACCBL PICOT FOURCHE D1.1MM ¦¦ F2 59995 ACCBL PICOT FOURCHE D1.1MM ¦
28 (41) BRUKER Technical Manual Version 001
+-- Value Tab Head ----------------------------------------------------------+¦ Part:W1301914 Drawing:W4S131509B Copy In Part: Draw: ¦¦ Desc:ASU MULTIPLICATION AU CARRE ECL:0 Modified:02/03/95 By:DEHF ¦+-- Value Tab ---------------------------------------------------------------+¦ Pos. Component Local Description ¦¦ IC1 56510 IC 834/PAD AD834MULT 0.5GHZSO8 ¦¦ IC2 56510 IC 834/PAD AD834MULT 0.5GHZSO8 ¦¦ L1 22874 SELF CMS 1008 1.5UH 10% ¦¦ L2 22874 SELF CMS 1008 1.5UH 10% ¦¦ L3 22874 SELF CMS 1008 1.5UH 10% ¦¦ L4 22874 SELF CMS 1008 1.5UH 10% ¦¦ L5 42179 SELF CMS 1008 12NH 20% ¦¦ R1 53689 RES CMS 274 1% 0.25W 1206 ¦¦ R2 20765 RES CMS 51.1 1% 0.25W 1206 ¦¦ R3 20711 RES CMS 10 1% 0.25W 1206 ¦¦ R4 8854 RES CMS 200 1% 0.25W 1206 ¦¦ R5 20721 RES CMS 68.1 1% 0.25W 1206 ¦¦ R6 20724 RES CMS 100 1% 0.25W 1206 ¦¦ R7 20722 RES CMS 82.5 1% 0.25W 1206 ¦¦ R8 20765 RES CMS 51.1 1% 0.25W 1206 ¦¦ R9 20765 RES CMS 51.1 1% 0.25W 1206 ¦¦ R10 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R11 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R12 8854 RES CMS 200 1% 0.25W 1206 ¦¦ R13 20733 RES CMS 562 1% 0.25W 1206 ¦¦ R14 20724 RES CMS 100 1% 0.25W 1206 ¦¦ R15 20724 RES CMS 100 1% 0.25W 1206 ¦¦ R16 20722 RES CMS 82.5 1% 0.25W 1206 ¦¦ R17 8853 RES CMS 61.9 1% 0.25W 1206 ¦¦ R18 8853 RES CMS 61.9 1% 0.25W 1206 ¦¦ R19 8853 RES CMS 61.9 1% 0.25W 1206 ¦¦ R20 8853 RES CMS 61.9 1% 0.25W 1206 ¦¦ R21 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R22 51836 RES CMS 75 1% 0.25W 1206 ¦¦ R23 20718 RES CMS 39.2 1% 0.25W 1206 ¦¦ R24 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R25 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R26 20715 RES CMS 22.1 1% 0.25W 1206 ¦¦ R27 20715 RES CMS 22.1 1% 0.25W 1206 ¦¦ R28 20721 RES CMS 68.1 1% 0.25W 1206 ¦¦ R29 8854 RES CMS 200 1% 0.25W 1206 ¦¦ R30 8854 RES CMS 200 1% 0.25W 1206 ¦¦ R31 73283 RES CMS 47.5 1% 0.25W 1206 ¦¦ R32 20730 RES CMS 332 1% 0.25W 1206 ¦¦ SW1 56425 IC 630/SA630 S08 ¦¦ TR1 56414 TRSFO 1/1 5-1000MHZ CMS DIP6 ¦¦ TR2 56414 TRSFO 1/1 5-1000MHZ CMS DIP6 ¦+------------------------------------------------------------------------------+
Technical Manual Version 001 BRUKER 29 (41)
12345678
30 (4
2 1
A
B
C
D
RFMMA
1234
5 6 7 8
SW4MSW-2-20
W2
R91.9
-8V
CE22UF20V
CP3L2
10UH-8V
AT40
+5V
R1147
R133.92K
CP4
DRAWN:DATE:
APPROV:DATE:
DWG:
VISA:
VISA:
SHEET:
DW26/09/94
W4S132081
SB26/09/94
1/1
S.a.d.i.s
SPECTROSPIN
Figure 3.6.
Attenuator S
chematic
1)B
RU
KE
RT
echn
ical Man
ual V
ersion
001
8 7 6 5 4 3
D
C
B
A
20dBATT
40dBATT
R461.9
R5249
R661.9
R761.9
R8249
6
1 2 3 4
5678
SW3MSW-2-20
1234
5 6 7 8
SW2MSW-2-20
R161.9
R2249
R361.9
1 2 3 4
5678
SW1MSW-2-20
W1RFMUL
+5V
+5V
CE122UF20V
CP2L1
10UH
C5100PF R14
150
R15150
R18274
-8V
R16150
R17150
R20274 C7
100PF
2
C8100PFR21
274R19274
E1
1
N.C
2
E1
3
S1
4
S2
5
E2
6
N.C
7
E2
8
S1
16
IN1
15
V-
14
GND
13
VCC
12
V+
11
IN2
10
S2
9
IC1DG403DY
C6100PF
+5V
R1047
R123.92K
CP1AT20
+5V
C2100NF
-8V
C1100NF
ART: W1301948
AMPLITUDE SETTING UNITATTENUATOR & DRIVER BOARD
EC: 01
Figure 3.7. Attenuator Location
R9
W2SW4
R8R5
R7H3H5
R6
R4
SW3
CP4H6 L2 H2L1CP1H1
W1SW1
R1
R2
H4 W4P31102C
R3
SW2
C2
W4P
131102C
R12
R10C1
R11
R13
R16
R17
C7
R20 R21
C8
C5
R14
C6
R18 R19
R15
IC1CE2 CE2+ +
8 7 6 5 4 3 2 1
A
B
C
D
12345678
D
C
B
A
A.S.U.
ART: W1301822 EC: 01 DRAWN:DATE:
APPROV:DATE:
DWG:
DW28/10/94
W4L131102
SB28/10/94
VISA:
VISA:
SHEET: 1/1
S.a.d.i.s
SPECTROSPIN
ATTENUATOR & DRIVER BOARD
CI : W4P131102CB
Technical Manual Version 001 BRUKER 31 (41)
MMA Unit
Value Table
+-- Value Tab Head ----------------------------------------------------------+¦ Part:W1301948 Drawing:W4S132081 Copy In Part: Draw: ¦¦ Desc:ASU ATTENUATEUR & PILOTE ECL:0 Modified:27/10/97 By:MN ¦+-- Value Tab ---------------------------------------------------------------+¦ Pos. Component Local Description ¦¦ C1 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C2 8493 COND CMS 1206 100N 50V 20% X7R ¦¦ C5 30412 COND CMS CDR14 100P 500V 20% ¦¦ C6 30412 COND CMS CDR14 100P 500V 20% ¦¦ C7 30412 COND CMS CDR14 100P 500V 20% ¦¦ C8 30412 COND CMS CDR14 100P 500V 20% ¦¦ CE1 51557 COND CMS TANTAL 22U 20V 20% ¦¦ CE2 51557 COND CMS TANTAL 22U 20V 20% ¦¦ CI1 W1356233 CI ASU ATTENUATOR & DRIVER ¦¦ CP1 59995 ACCBL PICOT FOURCHE D1.1MM ¦¦ CP4 59995 ACCBL PICOT FOURCHE D1.1MM ¦¦ IC1 22554 IC 403/SWI DG403DY SO16 ¦¦ L1 30155 SELF 10UH 0.14A ¦¦ L2 30155 SELF 10UH 0.14A ¦¦ R1 8853 RES CMS 61.9 1% 0.25W 1206 ¦¦ R2 56314 RES CMS 249 1% 0.25W 1206 ¦¦ R3 8853 RES CMS 61.9 1% 0.25W 1206 ¦¦ R4 8853 RES CMS 61.9 1% 0.25W 1206 ¦¦ R5 56314 RES CMS 249 1% 0.25W 1206 ¦¦ R6 8853 RES CMS 61.9 1% 0.25W 1206 ¦¦ R7 8853 RES CMS 61.9 1% 0.25W 1206 ¦¦ R8 56314 RES CMS 249 1% 0.25W 1206 ¦¦ R9 8853 RES CMS 61.9 1% 0.25W 1206 ¦¦ R10 73283 RES CMS 47.5 1% 0.25W 1206 ¦¦ R11 73283 RES CMS 47.5 1% 0.25W 1206 ¦¦ R12 20744 RES CMS 3.92K 1% 0.25W 1206 ¦¦ R13 20744 RES CMS 3.92K 1% 0.25W 1206 ¦¦ R14 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R15 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R16 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R17 20726 RES CMS 150 1% 0.25W 1206 ¦¦ R18 53689 RES CMS 274 1% 0.25W 1206 ¦¦ R19 53689 RES CMS 274 1% 0.25W 1206 ¦¦ R20 53689 RES CMS 274 1% 0.25W 1206 ¦¦ R21 53689 RES CMS 274 1% 0.25W 1206 ¦¦ SW1 56407 SW ASGA CMS DC-1GHZ ¦¦ SW2 56407 SW ASGA CMS DC-1GHZ ¦¦ SW3 56407 SW ASGA CMS DC-1GHZ ¦¦ SW4 56407 SW ASGA CMS DC-1GHZ ¦+------------------------------------------------------------------------------+
32 (41) BRUKER Technical Manual Version 001
4Specifications 4
Characteristics of Amplitude Setting Unit Single Channel 4.1
The specifications below fit with the last upgrading of the unit. (Febuary 1997)
RF specifications 4.1.1
Frequency range 5 to 850 MHzGain 1 dB ± 1 dBInput power 4 dBm ± 0,5 dBOutput power 5 dBm ± 1 dB for 4 dBm INInput VSWR 1.4Output VSWR 1.5Power out 1 dB Compression 5 dBmOutput harmonics H2 - 30 dBmOutput harmonics H3 - 30 dBm
Amplitude control 4.1.2
from 0 to +1V/-1V 100Ω balanced load (MOD & MULT)Cubical law for Modulation
Square law for MultiplicationDigital input for 20dB & 40dB Attenuation
(1 : through - 0 : active)SPF & BLK (0 : through - 1 : blanked)
Safety switch 4.1.3
SPENAB digital input (1 : RF Off)(0 : RF On)
Technical Manual Version 001 BRUKER 33 (41)
Specifications
Dynamics 4.1.4
Dynamic range 120 dBModulation dynamic 50 dB (50dB @ 600 MHz)
-40 dB (50dB* @ 800 MHz)Multiplication dynamic 40 dB (50dB @ 600 MHz)
-30 dB (40dB* @ 800 MHz)(* = ± 2dB linearity)
Attenuators 20 dB (± 1dB) + 40 dB (± 1dB) @ 800 MHz
Phase shift 4.1.5
Modulation @ 50 dB Range (25°C) <15° for 600 MHz<25° for 800 MHz
Multiplication @ 30 dB <10° for 600 MHz<15° for 800 MHz
Typical thermal stability (25°C to 50°C) = -F x 3.10-3 degree.K-1
(example : F = 800 MHz, T from 300 to 315k ⇒ ∆ϕ = −36°)
Isolation (SPENAB CMD), (MOD & MULT at max. level) 4.1.6
Isolation input / output 70 dBIsolation input / output + ATT : 60 dB 110 dB
Output noise level 4.1.7
Unblanked (MOD, MULT = 0V) < -135 dBm (1 Hz)Unblanked (MOD, MULT = 2.5V) < -124 dBm (1 Hz)Blanked (ATT = 60 dB, SPF = 0V) Thermal noise
Switching time 4.1.8
Rise Time 200 nsDC Ringing 150 mVFall Time 100 nsDC Ringing 10 mVPropagation Time 40 ns
DC requirements 4.1.9
Supply +15V 420 mASupply -15V 200 mASupply +5V 100 mA
∆ϕ∆T-------
34 (41) BRUKER Technical Manual Version 001
Characteristics of Amplitude Setting Unit Single Channel
Operating temperature 4.1.10
Ambiance temperature range +20°C @ +40°C
Technical Manual Version 001 BRUKER 35 (41)
Specifications
36 (41) BRUKER Technical Manual Version 001
Figures
1 ASU Single Channel 7Figure 1.1. Amplitude Setting Unit Single Channel Location ....................8Figure 1.2. Amplitude Setting Unit Single Channel Block Diagram ...........9Figure 1.3. Amplitude Setting Unit Single Channel Wiring Diagram ........10
2 Interface 11Figure 2.1. Interface Schematic .............................................................12Figure 2.2. Interface Location ................................................................13Figure 2.3. PAL ASU03/01 Logical Program ..........................................14
3 MMA Unit 19Figure 3.1. Modulation, Multiplication & Attenuator Block Diagram .........20Figure 3.2. Modulation Schematic .........................................................21Figure 3.3. Modulation Location ............................................................22Figure 3.4. Multiplication Schematic ......................................................26Figure 3.5. Multiplcation Location ..........................................................27Figure 3.6. Attenuator Schematic ..........................................................30Figure 3.7. Attenuator Location .............................................................31
4 Specifications 33
Technical Manual Version 001 BRUKER 37 (41)
Figures
38 (41) BRUKER Technical Manual Version 001
Tables
1 ASU Single Channel 7
2 Interface 11Table 2.1. Front Panel Connector J1 .............................................. 17Table 2.2. Rear Panel Connector J2 ............................................... 18
3 MMA Unit 19
4 Specifications 33
Technical Manual Version 001 BRUKER 39 (41)
Tables
40 (41) BRUKER Technical Manual Version 001
Technical Manual Version 001 BRUKER 41 (41)
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