Telit EVB User Guide · 2017-10-11 · While reasonable efforts have been made to assure the...
Transcript of Telit EVB User Guide · 2017-10-11 · While reasonable efforts have been made to assure the...
Telit EVB User Guide 1VV0301249 Rev.0.9 – 2016-09-20
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APPLICABILITY TABLE
PRODUCT
LE920A4
xE922-3GR
LE910Cx
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SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE
Notice While reasonable efforts have been made to assure the accuracy of this document, Telit assumes no liability resulting from any inaccuracies or omissions in this document, or from use of the information obtained herein. The information in this document has been carefully checked and is believed to be entirely reliable. However, no responsibility is assumed for inaccuracies or omissions. Telit reserves the right to make changes to any products described herein and reserves the right to revise this document and to make changes from time to time in content hereof with no obligation to notify any person of revisions or changes. Telit does not assume any liability arising out of the application or use of any product, software, or circuit described herein; neither does it convey license under its patent rights or the rights of others. It is possible that this publication may contain references to, or information about Telit products (machines and programs), programming, or services that are not announced in your country. Such references or information must not be construed to mean that Telit intends to announce such Telit products, programming, or services in your country.
Copyrights This instruction manual and the Telit products described in this instruction manual may be, include or describe copyrighted Telit material, such as computer programs stored in semiconductor memories or other media. Laws in the Italy and other countries preserve for Telit and its licensors certain exclusive rights for copyrighted material, including the exclusive right to copy, reproduce in any form, distribute and make derivative works of the copyrighted material. Accordingly, any copyrighted material of Telit and its licensors contained herein or in the Telit products described in this instruction manual may not be copied, reproduced, distributed, merged or modified in any manner without the express written permission of Telit. Furthermore, the purchase of Telit products shall not be deemed to grant either directly or by implication, estoppel, or otherwise, any license under the copyrights, patents or patent applications of Telit, as arises by operation of law in the sale of a product.
Computer Software Copyrights The Telit and 3rd Party supplied Software (SW) products described in this instruction manual may include copyrighted Telit and other 3rd Party supplied computer programs stored in semiconductor memories or other media. Laws in the Italy and other countries preserve for Telit and other 3rd Party supplied SW certain exclusive rights for copyrighted computer programs, including the exclusive right to copy or reproduce in any form the copyrighted computer program. Accordingly, any copyrighted Telit or other 3rd Party supplied SW computer programs contained in the Telit products described in this instruction manual may not be copied (reverse engineered) or reproduced in any manner without the express written permission of Telit or the 3rd Party SW supplier. Furthermore, the purchase of Telit products shall not be deemed to grant either directly or by implication, estoppel, or otherwise, any license under the copyrights, patents or patent applications of Telit or other 3rd Party supplied SW, except for the normal non-exclusive, royalty free license to use that arises by operation of law in the sale of a product.
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Usage and Disclosure Restrictions
License Agreements The software described in this document is the property of Telit and its licensors. It is furnished by express license agreement only and may be used only in accordance with the terms of such an agreement.
Copyrighted Materials Software and documentation are copyrighted materials. Making unauthorized copies is prohibited by law. No part of the software or documentation may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language or computer language, in any form or by any means, without prior written permission of Telit
High Risk Materials Components, units, or third-party products used in the product described herein are NOT fault-tolerant and are NOT designed, manufactured, or intended for use as on-line control equipment in the following hazardous environments requiring fail-safe controls: the operation of Nuclear Facilities, Aircraft Navigation or Aircraft Communication Systems, Air Traffic Control, Life Support, or Weapons Systems (High Risk Activities"). Telit and its supplier(s) specifically disclaim any expressed or implied warranty of fitness for such High Risk Activities.
Trademarks TELIT and the Stylized T Logo are registered in Trademark Office. All other product or service names are the property of their respective owners.
Third Party Rights The software may include Third Party Right software. In this case you agree to comply with all terms and conditions imposed on you in respect of such separate software. In addition to Third Party Terms, the disclaimer of warranty and limitation of liability provisions in this License shall apply to the Third Party Right software. TELIT HEREBY DISCLAIMS ANY AND ALL WARRANTIES EXPRESS OR IMPLIED FROM ANY THIRD PARTIES REGARDING ANY SEPARATE FILES, ANY THIRD PARTY MATERIALS INCLUDED IN THE SOFTWARE, ANY THIRD PARTY MATERIALS FROM WHICH THE SOFTWARE IS DERIVED (COLLECTIVELY “OTHER CODE”), AND THE USE OF ANY OR ALL THE OTHER CODE IN CONNECTION WITH THE SOFTWARE, INCLUDING (WITHOUT LIMITATION) ANY WARRANTIES OF SATISFACTORY QUALITY OR FITNESS FOR A PARTICULAR PURPOSE. NO THIRD PARTY LICENSORS OF OTHER CODE SHALL HAVE ANY LIABILITY FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING WITHOUT LIMITATION LOST PROFITS), HOWEVER CAUSED AND WHETHER MADE UNDER CONTRACT, TORT OR OTHER LEGAL THEORY, ARISING IN ANY WAY OUT OF THE USE OR DISTRIBUTION OF THE OTHER CODE OR THE EXERCISE OF ANY RIGHTS GRANTED UNDER EITHER OR BOTH THIS LICENSE AND THE LEGAL TERMS APPLICABLE TO ANY SEPARATE FILES, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
Copyright © Telit Communications S.p.A. 2016.
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Table of Contents
1. Introduction ................................................................................................................... 9
1.1. Scope ....................................................................................................................... 9
1.2. Related Documents .................................................................................................. 9
1.3. Abbreviations ........................................................................................................... 9
2. General description .................................................................................................... 10
3. Block Diagram ............................................................................................................ 12
4. Default Jumper Placement ......................................................................................... 14
5. Power Supply .............................................................................................................. 16
5.1. Supply source selection ......................................................................................... 16
5.2. RF module supply current monitoring .................................................................... 19
5.3. Auxiliary supply ...................................................................................................... 20
6. Battery charging ......................................................................................................... 21
7. Control switches and indicator LED’s ...................................................................... 22
7.1. RF module .............................................................................................................. 22
7.2. Control Buttons ...................................................................................................... 23 7.2.1. ON/OFF ..................................................................................................................... 23 7.2.2. Reset ......................................................................................................................... 23 7.2.3. SHDN ........................................................................................................................ 23 7.2.4. ECALL ....................................................................................................................... 24 7.2.5. EMERGENCY BOOT ................................................................................................. 24 7.2.6. Remote controlling of the buttons ............................................................................... 24
7.3. Battery charger ....................................................................................................... 25
7.4. A-Star ..................................................................................................................... 25
7.5. GPS LNA Control ................................................................................................... 26
8. SIM interface ............................................................................................................... 27
8.1. SIM1+eSIM configuration (PL202) ......................................................................... 27 8.1.1. EVB SIM1 configuration ............................................................................................. 28
8.2. SIM2 ....................................................................................................................... 28
9. Analog audio ............................................................................................................... 29
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9.1. Audio connector selection ...................................................................................... 29 9.1.1. 3.5mm audio jack Configurations ............................................................................... 30 9.1.2. RJ11 phone type socket configuration ....................................................................... 32
9.2. MEMS microphone ................................................................................................. 35
9.3. Class D amplifier .................................................................................................... 37
10. USB interface ........................................................................................................... 39
11. UART interface ........................................................................................................ 40
12. Micro SD card interface .......................................................................................... 40
13. JTAG interface ......................................................................................................... 40
14. Thermal monitoring & cooling ............................................................................... 41
14.1. Thermal monitoring ............................................................................................. 41
14.2. Cooling ................................................................................................................ 41
15. IO connectors .......................................................................................................... 42
16. 120-Pin male B2B connectors ................................................................................ 44
17. Extension connector ............................................................................................... 47
18. EVB Component diagram ....................................................................................... 48
19. Schematics .............................................................................................................. 50
20. Safety Recommendations ....................................................................................... 55
21. Document History ................................................................................................... 56
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List of Tables Table 1 - Default Jumper settings ........................................................................................................ 15 Table 2 - I/V convertor settings .......................................................................................................... 19 Table 3 - A-Star RF module power cycle control ................................................................................ 24 Table 4 - A-star charger indicator sense .............................................................................................. 25 Table 5 - GPS LNA Control ................................................................................................................ 26 Table 6 – SIMCTRL Truth Table ........................................................................................................ 28 Table 7 - USB path selection ............................................................................................................... 39 Table 8 - MMC supply enable ............................................................................................................. 40 Table 9 - Cool fan A-star control pin mapping .................................................................................... 41 Table 10 SO501 ................................................................................................................................... 44 Table 11 SO502 ................................................................................................................................... 45 Table 12 SO503 ................................................................................................................................... 46 Table 13 – Revision History ................................................................................................................ 56
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Table of Figures Figure 1 EVB with IFBD on top .......................................................................................................... 11 Figure 2 EVB System Overview.......................................................................................................... 12 Figure 3 EVB Main board block diagram............................................................................................ 13 Figure 4 Default jumper setting ........................................................................................................... 14 Figure 5 EVB power Supply ................................................................................................................ 16 Figure 6 jumper PL103 ........................................................................................................................ 18 Figure 7 jumpers PL105 / PL106 ......................................................................................................... 18 Figure 8 jumpers PL111/PL112 ........................................................................................................... 19 Figure 9 jumpers PL109/PL110 ........................................................................................................... 20 Figure 10 RF module status LEDs ....................................................................................................... 22 Figure 11 RF module control buttons .................................................................................................. 23 Figure 12 charger status LEDs ............................................................................................................. 25 Figure 13 GPS LNA control ................................................................................................................ 26 Figure 14 SIM1 on module internal eSIM chip PL202 ....................................................................... 27 Figure 15 SIM1 on EVB SIM1 cardholder or on EVB “Test eSIM” PL202 ...................................... 27 Figure 16 SIM1 on SIM1 cardholder PL201 ....................................................................................... 28 Figure 17 SIM1 on EVB external eSIM chip PL201 ........................................................................... 28 Figure 18 Analog audio path selectors................................................................................................. 29 Figure 19 downlink 3.5mm audio jack PL404/PL405 ........................................................................ 30 Figure 20 uplink 3.5mm audio jack MIC1 PL402/PL403 ................................................................... 30 Figure 21 uplink 3.5mm Audio Jack MIC2 PL402/PL403.................................................................. 31 Figure 22 uplink 3.5mm Audio Jack MICBIAS codec 1.5V PL403 ................................................... 31 Figure 23 uplink 3.5mm Audio Jack BIAS local 3V PL403 ............................................................... 31 Figure 24 downlink RJ11 EAR1 PL404/PL405 .................................................................................. 32 Figure 25 downlink RJ11 EAR2 PL404/PL405 .................................................................................. 32 Figure 26 uplink RJ11 MIC1 PL406 ................................................................................................... 33 Figure 27 uplink RJ11 MIC2 PL406 ................................................................................................... 33 Figure 28 uplink RJ11 MICBIAS supplied from module PL402 ........................................................ 34 Figure 29 uplink RJ11 BIAS supplied locally 3V PL402.................................................................... 34 Figure 30 uplink MEMS MIC1 PL402/PL407 .................................................................................... 35 Figure 31 uplink MEMS MIC2 PL402/PL407 .................................................................................... 35 Figure 32 uplink MEMS MICBIAS supplied from module PL407 .................................................... 36 Figure 33 uplink MEMS BIAS local 3V PL407 .................................................................................. 36 Figure 34 Class D amp disabled PL409 ............................................................................................... 37 Figure 35 downlink Class D to EAR1 PL408 ...................................................................................... 37 Figure 36 downlink Class D to EAR2 PL408 ...................................................................................... 38 Figure 37 coolfan pin mapping PL301 ................................................................................................ 41 Figure 38 EVB component diagram TOP view ................................................................................... 48 Figure 39 EVB component diagram Bottom view .............................................................................. 49
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1. Introduction 1.1. Scope
The scope of this document is to introduce and describe Telit’s Generic Evaluation Board
1.2. Related Documents
1.3. Abbreviations
Doc # Document Name
Term Definition EVB Evaluation Board IFBD Interface Board CSI Camera serial interface CABC Content Adaptive Backlight Control DSI Display serial interface GPIO General-purpose input/output SD Secure digital SIM Subscriber Identity module MIPI Mobile Industry Processor Interface UART Universal asynchronous receiver transmitter UMTS Universal mobile telecommunications system USB Universal serial bus USIF Universal serial interface WCDMA Wideband code division multiple access
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2. General description The Telit Evaluation Board is a generic developer’s Platform which is designed to provide the complete development environment to the user and intended to be used with a new set of Telit IoT Modules as per the applicability table. The EVB is a generic platform which is designed to carry an Interface Board (IFBD) via three 120 pin B2B connectors thus making the EVB seamless to an actual FF pinout so that it can support multiple form factors and products. The Telit DUT modules is mounted on the IFBD. Power supply and control interface to the IFBD module are provided from the EVB via the B2B connectors. Several power supply configurations, including battery charging are available to the user. In addition, all interfaces which are needed for the developers such as SIM card holders, JTAG, UART, USB, audio, micro SD, etc are available on the EVB main board. To offer remote control and/or test automation of EVB environment, the EVB can be equipped with an Arduino compatible, A-star 32U4 microcontroller board, based on Atmel’s Atmega32U4 with USB interface. This Arduino compatible card is mounted on EVB using two 10p socket. The EVB functionality and supported features can be extended using the 120 pin SAMTEC extension connector (EXT) which allows adding an additional “Extension Cards” to the system such as SGMII Ethernet MAC/PHY, WiFi, audio codec, Display, Camera, Dead reckoning (DR), etc’
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The below picture shows a typical EVB platform comprised of EVB main board and IFBD (LE920 as an example)
Figure 1 EVB with IFBD on top
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3. Block Diagram The figure below is a high level system overview of the Generic EVB development platform:
Figure 2 EVB System Overview
The Extension Card section shown above is only an example of some of the possible EXT Card options which can be developed for the EVB Please contact Telit for the list of available EXT Cards which can be used for your specific product/application.
USIF 2
ON/OFF
0
LED 3
uSDMIC2MIC1
EP1EP2
RJ11
JTAG
USB 2.0 / USB 3.0
I2S SPI DSI CSI1 CSI 2
Charger
I2C
VBATT_AUX
VBATT
GPIO
Arduino A-Star 32U4 Micro
ON/OFF
RESET0
0
PWR_EN
Remote/Debug Functions
FTDIUART2USB
From any of EVBUSB connections
VBATT
Meas
Meas
PWR_EN(Remote)Meas
VBATT
VBATT_PA
3.8V 5AVR
On-Board Power
SIM 1SIM SW (2:1)NX3DV2567 SIM 1
eSIM
ANT 2 ANT 3ANT 1
B2B
B2B
B2B
Key
EVBGeneric Main Card
EVB Connectivity
Interface Card
Extension Cards
SuperCap
From Temp_Sensor
Temp_Sensor
Current Measure
FAN
SIM 2
HP
RESETKey
VR Bypass (3.8V-4.2V)
VBATT AUX
PCM PWR
SPKR AMP
MAC
120 Pin Edge Connector
6V-12V
MMI Card WiFi Ext
CodecSPI
Flash BT ETHPHY
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The below figure shows a more detailed block diagram of the EVB main board.
Figure 3 EVB Main board block diagram
Note - Red color items: mounted on back side
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4. Default Jumper Placement Normally the EVB kits should be pre-configured according to the following default jumper placement which corresponds to the regular mode for SW development and functional use purpose. Main assumptions/conditions:
• Power source by SMPS down convertor (set-point 3.9V) fed from PL101/SO101 • SIM device placed in SIM1 cardholder SO202. • Audio downlink:
o 3.5mm Audio Jack uses EAR1 for L-CH and EAR2 to R-CH o RJ11 is not connected o Speaker connected directly (D Class AMP bypassed)
• Audio uplink: o 3.5mm Audio Jack uses MIC1 (Single ended mode) o On-Board MEMS microphone uses MIC2.
• Current measure resistors shorted (bypassed)
Figure 4 Default jumper setting
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The below table summarizes the default jumper settings: For the 2.56 mm jumpers please use PN 1FFPJ00100. For the 1.27 mm jumpers please use PN 1FF0600633HRW.
Jumper Jumper Type set position Description PL103 2.54mm 2-3 SO101/PL101 sources SMPS PL106 2.54mm 1-2 No direct feed by PL102 (bypass) PL105 2.54mm 2-3 SMPS path selected PL114,PL108 2.54mm 1-2 Spare PL111 2.54mm 1-2/3-4 No current measurement PL112 2.54mm 1-2/3-4 No current measurement PL109/PL110 2.54mm 2/2 VBAT_AUX = Main VBAT PL204 2.54mm 2-3 USB switch connected to SO203 PL206 2.54mm 1-2 SPI (SO208) VREG_MSME PL302 2.54mm Open No SIM detect control by A-star PL202 2.54mm 2-3 Use external SIM device PL201 2.54mm 1-2 Use SIM1 cardholder PL411 2.54mm Open Enable external 3V Bias PL402 1.27mm 1-3
4-6 MIC1 uses single ended mode RJ11 Mic Bias = External 3V EVB Bias
PL403 1.27mm 1-3 4-6
Microphone of the 3.5mm connected to MIC1 3.5mm Mic Bias = External 3V EVB Bias
PL404 1.27mm 1-3/2-4 EAR1 to 3.5mm Audio Jack Right channel (SO401) PL405 1.27mm 1-3/2-4 EAR2 to 3.5mm Audio Jack Left channel (SO401) PL406 Open Microphone of RJ11 is not connected PL407 1.27mm 3-5
4-6 MEMS mic connected to MIC2 MEMS Mic Bias = External 3V EVB Bias
PL408 1.27mm Pin 5 (single) Pin 6 (single)
2 Spare jumpers
PL409 1.27mm 3-5 2-4
GPS bias controlled via GPIO Class D amp shutdown
PL414 1.27mm 3-5 4-6
Speaker Right connected directly (Class D bypassed) Speaker Left connected directly (Class D bypassed)
Table 1 - Default Jumper settings
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5. Power Supply 5.1. Supply source selection The EVB can be configured for different power supply sources depending on the required use case. The following block diagram describes the different power path options.
Figure 5 EVB power Supply
The EVB main power connector is PL101/SO101 with input range of 6-15V. Normally (=typical SW developers setup), the EVB is supplied from the main connector and a DCDC buck supply with set point of 3.9V is used to provide the system VBAT. So normally following jumper configuration: PL103/2-3; PL106/1-2; PL105/2-3. PL102 allows an external “configurable” power supply to feed directly the RF module VBAT input supply while all the auxiliary peripherals are sourced by the main power connector. For more details please refer to 5.3. This mode of operation is also needed to apply/test with complete VBAT test range for the module certification. For field testing use case, an additional “backup” battery can be present (PL104) in the box to overcome sudden or unexpected power drops from the vehicle’s 12V source. Since the RF module does not incorporate an internal battery charger solution, EVB has an external charger device BQ24261M from TI. So field test (battery incl.) use case following jumper configuration: PL103/1-2; PL106/open; PL105/1-2 Although strictly not necessary to be present, the A-star control board can be applied to automate the EVB power supply sequencing for test purpose, as well as other control and/or current or temperature monitoring functions.
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In case A-star module is not mounted in the system, the following default conditions will apply: Use case of DCDC buck power path selected (PL103/2-3): The buck supply will be enabled by default and supply the system with 3.9V Use case of charger path selected (PL103/1-2): The BQ24261M device from TI offers two features:
• Power-path control • Battery charging
The power-path feature allows the BQ24261M to power the system from a high efficiency DC-DC converter while simultaneously and independently charging the battery. The power path also permits the battery to supplement the system current requirements when the adapter cannot. The battery “charging” feature itself will be disabled by default, it needs to be software controlled and enabled over I2C communication bus. So the A-star module needs to be present and is responsible to enable battery charging. BQ24261 I2C SLAVE 7bit address: 0x6B The charger path, if no input source of minimum 6V present on PL101/SO101, will also be supplied from 5V VBUS USB connector via diodes when connected. (Either from MDM via D106 or from FTDI via D107) Remind the current sourced from typical USB hosts is normally limited to 500mA, so please check your USB (charger) source specification or make sure the SW I2C configured battery charging current is lower. In order to avoid inadvertently current drawn from the USB host(s), apply minimum 6V level external power source on PL101/SO101, so the Schottky diodes will be reverse polarised. It is up to the user to place the jumpers according to the power system configuration he wants to apply. The following snapshots of the component diagram clarify the detailed pin locations of the power selection related jumpers. The suggested green colored jumper locations can be used for typical ‘SW developers usage’ to supply the system from an external 6V supply without any battery presence/charging involved.
NOTE:
For CS1742A R102 is not installed therefore option for powering or charging from MDM USB port SO203 is not available.
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Figure 6 jumper PL103
Figure 7 jumpers PL105 / PL106
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5.2. RF module supply current monitoring Regarding RF module system current measuring, the following 3 options exist.
1. The A-star module can be programmed to automate/measure/log from a host PC application the current consumed by both VBATT and VBATT_PA supply lines. Two MAX9611AUB devices and 1% precision resistors are used according to the following table.
VBATT VBATT_PA SENSE RESISTOR I/V conversion 250 mOhm 50 mOhm MAX9611 I2C SLAVE address (W/R) 0xE0/0xE1 0xE6/0xE7
Table 2 - I/V convertor settings
In order to enable (insert) the sense resistors in the VBAT supply paths, Jumper PL111 position3-4 (VBAT) and PL112 position3-4 (VBAT_PA) should be left open.
2. As second current monitor configuration, PL111 position1-2 and PL112 position1-2 can be opened and used to apply current clamps to an external ampere meter for manual measurements.
3. A third current monitoring option is foreseen by “bypass” PL102 input power connector. By placing jumper PL106 position 2-3, one can bypass to on-board voltage regulator and use an external power supply or power monitor/analyser device and use a host PC to directly monitor the system current. This option is useful for automated test setups with host PC controlling full system supply voltage range (via GPIB commands) to cover RF certification.
The following snapshots clarify the detailed pin location of involved jumpers PL111 and PL112 for a typical ‘SW developers usage’ mode, without the need for sense resistors and/or external ampere meter presence in the supply path. The green coloured jumper positions are suggested.
Figure 8 jumpers PL111/PL112
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5.3. Auxiliary supply In order to avoid interference between VBAT current path of interest, i.e. actually drawn by the DUT Telit RF module, and current drawn by peripherals in the system, supply path “VBAT_AUX” can be isolated from main RF module current path. VBAT_AUX supplies the following subsystems:
• A-Star remote control module (also supplied from main input supply in case system supply control from A-star GPIO is needed)
• I/O connectors • MicroSD card supply (3.0V) • Status LED’s • GNSS external LNA supply • Class D audio amplifier • Cool fan supply • Expansion board
For maximum flexibility, a 2x3 jumper setup (PL109/PL110) allows to select VBAT_AUX supply from 3 possible sources:
• Main system supply VBAT (=RF module supply) : PL110 position2 _ P109 position2 • DCDC buck SMPS convertor output : PL109 position 1-2 • Battery charger output CHG_BAT : PL109 position 2-3
Below snapshot clarifies the detailed pin position of the two involved jumpers PL109/PL110 as well as the suggested ‘SW developers usage’ green color settings.
Figure 9 jumpers PL109/PL110
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6. Battery charging The Telit EVB includes a built in battery which can be optionally installed. The battery could be used during field trials, drive tests and also for demos. In addition it can be used during tests where power cut is not desired. The battery charger is done using BQ24261MRGER Charger IC from TI. The BQ24261MRGER is controlled via the A-Star Arduino I2C and enabled by Arduino GPIO0.
• Pull GPIO0 low to enable charging • Pull GPIO0 high to disable charging and place the charger in HZ mode
The BQ24261MRGER slave address is 0xD6. The charging control and monitoring is done by the A-Star FW and requires the A-Star to be presents.
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7. Control switches and indicator LED’s 7.1. RF module The Generic EVB offers 2 indication LEDs that can be used to signal the module status and state of operation.
• SW_RDY LED (yellow) • STATUS LED (red)
The actual LED functionality is determined by the Telit module in use and by the connectivity inside the IFBD Please refer to the specific IFBD user guide.
Figure 10 RF module status LEDs
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7.2. Control Buttons Four tact switches are available to control the RF module:
• SW301 : SHDN • SW303: RESET • SW302: ON/OFF • SW305: ECALL • SW501: EMERGENCY BOOT
The figure below shows the location of the LED’s on the EVB main board
Figure 11 RF module control buttons
The actual button functionality is determined by the Telit module in use and by the connectivity inside the IFBD. Please refer to the specific IFBD user guide. Not all buttons are used or active with all types of Telit Modules. The description below is also one example that suits some of the modules.
7.2.1. ON/OFF Normal power on/off cycling of the module should be controlled by the ON/OFF button. Normally the user should press this button for powering ON the module. Normally the user should press this button for powering OFF the module allowing graceful software controlled power off.
7.2.2. Reset Normally, the RESET button is connected to the main Reset of the module in use.
7.2.3. SHDN On some modules, pressing the SHDN button triggers the PMIC device to execute a “forced” power supply shutdown (without allowing the software to properly end all ongoing activities on the modem device). It is comparable to system ‘power-cut’, but not completely the same, since the PMIC still follows the proper power off cycle started with a modem reset assertion.1
1 The Arduino A-star controller board has control, via pin D1 over the on_off control pin of the DCDC smps regulator of the EVB power circuitry. Using this way to power off the system is a “real” system power cut simulation, compared to SHDN.
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7.2.4. ECALL For Automotive modules, the ECALL button (connected to TGPIO_20) can be used to trigger an ECALL event. On some modules this button has dual functionality and can be used during boot to trigger/force the module into SW download mode. The actual button functionality is determined by the Telit module in use and by the connectivity inside the IFBD.
7.2.5. EMERGENCY BOOT The actual button functionality is determined by the Telit module in use and by the connectivity inside the IFBD. This button is relevant for specific modules while on others, it is simply not connected or can be used for other purposes. In those specific modules, holding down the EMERGENCY BOOT button during module power up will force the module to enter into the chipset bootloader (during execution of chipset BootROM)
7.2.6. Remote controlling of the buttons The physical pressing of buttons ON/OFF, RESET, SHDN can also be soft controlled from the A-star controller board, according to the following signal mapping table.
Push button A-star control pin ON/OFF D11 RESET D12 SHDN D5
Table 3 - A-Star RF module power cycle control
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7.3. Battery charger Two LED indicators offer feedback from the BQ24261M charger device.
Figure 12 charger status LEDs
STAT LED (Red): During charging this LED is turned on. If charging is complete or disabled, the LED turns off. Both indicator signals can also be sensed by the A-star controller board, according to the following signal mapping:
Charger indicator A-star sense pin STAT D4 INT D6
Table 4 - A-star charger indicator sense This required A-star internal pullup configuration on the related signals.
7.4. A-Star Besides the already mentioned control and sense functions of the A-star controller board, there are a few switches impacting the A-star module itself:
• SW306 : reset button of the A-star module
• SW304: 2pin-dipswitch to (optionally) define (up to) four A-star SW configuration modes.
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7.5. GPS LNA Control The Generic EVB supports 2 options for providing and controlling GPS LNA / Active antenna using PL409
Figure 13 GPS LNA control
• Setting PL409 jumper to 1-3 (upper left side) will constantly enable the LNA using EVB on board power supply.
• Setting PL409 jumper to 3-5 (lower left side) will enable the LNA to be controlled by GPIO of the module.
o Please note that not all modules support this mode. Please refer to the relevant module user guide for more info.
PL409 A-star control pin 1-3 Always ON 3-5 Enabled by GPIO from the module
Table 5 - GPS LNA Control
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8. SIM interface Most RF modules offer dual SIM interface - SIM1 and SIM2. Some of them have an embedded eSIM chip implemented in parallel on the SIM1 interface bus, adding one additional eSIM_RST signal defined on the module pinout interface. On EVB maximum flexibility is foreseen for providing access to SIM modules per the below options:
• SIM1 cardholder multiplexed with an EVB on board embedded “test eSIM” chip • SIM2 cardholder
Both SIM1 and SIM2 card holders are push-push type and support full size SIM. In order to avoid SIM1 bus conflicts, each SIM place holder has a 200k pulldown on its RST line, keeping the SIM device in that location in reset status. The modem-sourced RST signal will activate the SIM device in use by overruling the pulldown connected according to the multiplex path configuration. The section below describes the possible SIM configurations:
8.1. SIM1+eSIM configuration (PL202) PL202 defines where the SIM module for SIM1 bus interface is located:
• On board the module. i.e. eSIM chip inside RF module :PL202 position 1-2
• EVB SIM1_cardholder /or/ EVB on board eSIM chip2 :PL202 position 2-3
Figure 14 SIM1 on module internal eSIM chip PL202
Figure 15 SIM1 on EVB SIM1 cardholder or on EVB “Test eSIM” PL202
2 The eSIM on board the EVB is a “Test eSIM” allowing the connection to a test equipment (Base station Simulator) but would not allow connecting to a real life network (except using emergency mode)
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8.1.1. EVB SIM1 configuration PL201 defines where the EVB SIM1 SIM module target is located (Please note the below configuration is valid only in case PL202 is in 2-3 position):
• SIM1_cardholder :PL201 position 1-2
• EVB On-board eSIM chip :PL201 position 2-3
Figure 16 SIM1 on SIM1 cardholder PL201
Figure 17 SIM1 on EVB external eSIM chip PL201
For test purpose, in order to automate (emulate) SIM card removal detection use cases, the EVB on-board A-star controller board can control a SPDT switch (U206) capable of bringing SIMIN1 detect line in “not connected” status, actually simulating a SIM card removal.
In order to enable this control, jumper PL302 should be set, connecting A-star interface pin D9 to SIMCTRL. If PL302 not set, SIMCTRL is default “1”.
SIMCTRL SIM card detect status (SIMIN1)
0 Simulated removal of SIM
1 Actual SIM card status
Table 6 – SIMCTRL Truth Table
8.2. SIM2 SIM2 interface is not configurable and is directly connected to SIM2 cardholder SO201 which resides on the bottom side of the EVB (under SIM1 holder).
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9. Analog audio 9.1. Audio connector selection The EVB boards offers two generic Analog audio interface connectors:
• 3.5mm stereo audio jack - SO401
• RJ11 Terminal phone type mono audio socket - PL401
The actual audio features supported by the specific module are described in the module Hardware User Guide
The actual connectivity of the module audio interfaces to the EVB generic audio connectors is described in the relevant IFBD User Guide.
To cover all use cases and audio path multiplex options, a jumper based set of connectors provides all possible audio path selections as detailed in next subchapters:
Figure 18 Analog audio path selectors
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9.1.1. 3.5mm audio jack Configurations
9.1.1.1. Configuring 3.5mm audio jack to a stereo + MIC Downlink 3.5mm audio jack:
• EAR1_MT+ : JACK_L
• EAR1_MT- : AC coupled to GND
• EAR2_MT+ : JACK_R
• EAR2_MT- : AC coupled to GND
Jumper configuration:
• PL404 : position 1-3 & 2-4
• PL405 : position 1-3 & 2-4
Figure 19 downlink 3.5mm audio jack PL404/PL405
Uplink 3.5mm audio jack using MIC1 path:
• MIC1_MT+ : JACK_MIC+
• MIC1_MT- : AC coupled to GND
Jumper configuration:
• PL402 : position 1-3
• PL403 : position 1-3
Figure 20 uplink 3.5mm audio jack MIC1 PL402/PL403
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Uplink 3.5mm audio jack using MIC2 path:
• MIC2_MT+ : JACK_MIC+
• MIC2_MT- : AC coupled to GND
Jumper configuration:
• PL402 : position 3-5
• PL403 : position 3-5
Figure 21 uplink 3.5mm Audio Jack MIC2 PL402/PL403
9.1.1.2. Configuring MIC BIAS EVB provides two options for providing bias to the 3.5mm jack microphone: MICBIAS: In this case bias is generated by the RF module’s built-in audio codec: 1.5V Jumper configuration:
• PL403 : position 2-4
Figure 22 uplink 3.5mm Audio Jack MICBIAS codec 1.5V PL403
BIAS: In this case bias is generated locally on EVB: 3V Jumper configuration:
• PL403 : position 4-6 • PL401 : Open
Figure 23 uplink 3.5mm Audio Jack BIAS local 3V PL403
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9.1.2. RJ11 phone type socket configuration RJ11 provides differential mode / mono audio connection. EVB allows the user to connect any combination of EAR1/EAR and MIC1/MIC2 to the RJ11 connector as described below:
Downlink RJ11 phone socket using EAR1:
• EAR1_MT+ : RJ11_EAR+
• EAR1_MT- : RJ11_EAR-
Jumper configuration:
• PL404 : position 3-5 & 4-6
• PL405 : Open
Figure 24 downlink RJ11 EAR1 PL404/PL405
Downlink RJ11 phone socket using EAR2:
• EAR2_MT+ : RJ11_EAR+
• EAR2_MT- : RJ11_EAR-
Jumper configuration:
• PL405 : position 3-5 & 4-6
• PL405 : Open
Figure 25 downlink RJ11 EAR2 PL404/PL405
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Uplink RJ11 phone socket using MIC1:
• MIC1_MT+ : RJ11_MIC+
• MIC1_MT- : RJ11_MIC-
Jumper configuration:
• PL406 : position 1-3 & 2-4
Figure 26 uplink RJ11 MIC1 PL406
Uplink RJ11 phone socket using MIC2:
• MIC2_MT+ : RJ11_MIC+
• MIC2_MT- : RJ11_MIC-
Jumper configuration:
• PL406 : position 3-5 & 4-6
Figure 27 uplink RJ11 MIC2 PL406
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9.1.2.1. Configuring MIC BIAS EVB provides two options for providing bias to the RJ11 microphone:
1. MICBIAS: In this case bias is generated by the RF module’s built-in audio codec (actual MICBIAS voltage is determined by the specific module is use, please refer to relevant IFBD User Guide) Jumper configuration: • PL402 : position 2-4
Figure 28 uplink RJ11 MICBIAS supplied from module PL402
2. BIAS: In this case bias is generated locally on EVB: 3V Jumper configuration: • PL402 : position 4-6
Figure 29 uplink RJ11 BIAS supplied locally 3V PL402
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9.2. MEMS microphone For demonstration use cases, The EVB provides an on-board Analog MEMS microphone:
SPU0410HR5H (from Knowles)
The MEMS microphone can be connected to either MIC1 or MIC2 (single ended mode only).
For connecting the microphone to MIC1 path please follow the below:
• MIC1_MT+ : MEMS_OUT
• MIC1_MT- : AC coupled to GND
Jumper configuration:
• PL407 : position 1-3
• PL402: position 1-3
Figure 30 uplink MEMS MIC1 PL402/PL407
For connecting the microphone to MIC2 path please follow the below:
• MIC2_MT+ : MEMS_OUT
• MIC2_MT- : AC coupled to GND
Jumper configuration:
• PL407 : position 3-5
• PL402: position 3-5
Figure 31 uplink MEMS MIC2 PL402/PL407
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The EVB provides two options for providing bias to the MEMC microphone:
1. MICBIAS: In this case bias (MEMC supply) is generated by the RF module’s built-in audio codec (actual MICBIAS voltage is determined by the specific module is use, please refer to relevant IFBD User Guide)
Jumper configuration: • PL407 : position 2-4
Figure 32 uplink MEMS MICBIAS supplied from module PL407
2. BIAS: In this mode the bias (MEMC supply) is generated locally on EVB: 3V Jumper configuration: • PL407 : position 4-6
Figure 33 uplink MEMS BIAS local 3V PL407
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9.3. Class D amplifier For demo use case, a class D audio amplifier is provided on the EVB using the LM48511 from TI with following conditions:
• Supplied from VBAT_AUX • Amplification external set resistors: Avd = 2 V/V • FB_SEL= 0 high voltage setting:
o R3 =24k o R4=2.4k o R1=4.87k
This results in PV1 = 7.3V • Typical PWR_OUT (THDN 1%) for VBAT_AUX = 3.6V : 2.5W@8 ohm / 4W@4 ohm
The amplifier is by default enabled, in order to disable it - jumper PL409 should be set to 2-4 position:
Figure 34 Class D amp disabled PL409
The output of the amplifier can be connected to a speaker (4 Ohm, 8 Ohm) via connector PL410. The Class D can be connected to either one of the downlink audio part (EAR1 or EAR2) Connecting Class D to EAR1:
• EAR1_MT+ : AMP_P • EAR1_MT- : AMP_M
Jumper configuration:
• PL408 :position 1-3 & 2-4
Figure 35 downlink Class D to EAR1 PL408
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Connecting Class D to EAR2:
• EAR2_MT+ : AMP_P • EAR2_MT- : AMP_M
Jumper configuration:
• PL408 :position 3-5 & 4-6
Figure 36 downlink Class D to EAR2 PL408
Bypass of Class D Amplifier: Starting from CS1742C version, the Telit EVB supports the option of bypassing the Class D AMP thus allowing modules with internal speaker AMP to connect directly to the speaker while bypassing the on board class D AMP. PL414 selects the Class D connectivity as follows:
• For Class D bypass - PL414: 3-5 & 4-6
• For using on board Class D: PL414 => 1-3 & 2-4
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10. USB interface The EVB provides HS USB connection to the RF module chipset USB for supporting:
• Flash/update firmware • Diagnostics
The USB micro AB connector is located on the EVB main board. Besides routing USB bus to this main connector, there is a second USB path available towards the extension connector SO506 which allows designing extension cards with USB connection to the USB of the RF module chipset. The active USB path used is defined by multiplexer switch (Refer to figure 1) which is controlled via a Jumper or a GPIO. By default PL204 Jumper is at 2-3 location meaning the USB switch is forced to allow USB connectivity between EVB USB connector and the module as shown below.
In case dynamic control is required, PL204 should be set to 1-2 position. In that case the switch will be controlled by TGPIO_02 of the RF module. Please refer to IFBD User Guide for the actual connectivity of TGPIO_02 to the module.
TGPIO_02 Active USB path 0 Micro-AB USB connector SO203 (Default) 1 Extension connector SO506
Table 7 - USB path selection
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11. UART interface The EVB includes two generic UART interfaces:
• UART1 – 4 wire UART • UART2 - Auxiliary UART with 2 pin
On the EVB, both UART are routed to a dual serial-USB convertor FT2232D, accessible via mini-B USB connector SO301. The actual mapping of the module UART interfaces to the EVB UART ports are defined in the IFBD Please refer to IFBD UG for more information.
12. Micro SD card interface The Generic EVB provides Micro-SD card socket (SO204) for cases where the Telit module supports SD Card interface. The EVB supports 4-bit dual voltage (1.8/2.95V) SD card interface. The EVB main board is designed to allow SD 3.0 at up to 200MHz SDR / 50 MHz DDR. The actual speed and voltage support is determined by the module in use and the IFBD connectivity. The EVB supports the card detect function as well. On top of the digital SDC interface lines, the RF module also provides a ‘reference’ supply VMMC for the external pullup resistors3. The power supply of the memory card needs to be sourced externally using the on-board 3.0V linear regulator (U205). The regulator enable pin which is active HIGH is connected to TGPIO_10 and is responsible for enabling this power supply (should be controlled via the RF module SW).
TGPIO_10 SD card supply 0 Disabled 1 Enabled
Table 8 - MMC supply enable
13. JTAG interface For SW code level debugging purpose with TRACE32 Lauterbach pod, the standard 20 pin header connector PL203 gives access to the module chipset JTAG interface.
3 SD card pull-ups by default are present on EVB, but could be omitted if such pull ups are available inside the module (either on board or chip-set internal).
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14. Thermal monitoring & cooling 14.1. Thermal monitoring Normally, the Interface board contains a 10k NTC thermistor which is placed on the top layer GND plane, close to module boundary. The measured NTC temperature should reflect the module’s backside temperature. The readout of the thermistor is done via ADC feature of the A-star controller board, interface pin “AIN0”. A 10k pullup resistor is connected to the 5V A-star IO supply, resulting in resistive division, having typical ADC readout nominal around 2.5V, at 25deg.
14.2. Cooling In order to provide cooling to the Telit module (via the module’s bottom plate), a cool-fan+ heatsink combination can be attached on the backside of the IFBD. The cool-fan/heatsink combination targeted for this application is:
• Any 40x40x10mm PWM compatible 5V fan. • ATS-55350D-C2-R0 (35x35x9.5mm) heatsink from Advanced Thermal solutions Inc.
The cool-fan/heatsink mechanical attachment is part of the plastics housing concept, custom designed for the complete Development Kit. A dedicated fan supply is present on the EVB of controlled by the A-star controller board.
A-star interface pin function Active level D18 FAN enable high A10 PWM speed control high D19 Speed sense N/A
Table 9 - Cool fan A-star control pin mapping The detailed cool-fan connector pinning is indicated in next figure: It is a 3 pin connector located on the bottom side of EVB.
Figure 37 coolfan pin mapping PL301
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15. IO connectors Besides the main 120p extension connector, several dedicated IO interface connectors are available. (Samtec 10p pin header connector type: SHF-105-01-L-D-SM-LC which can be mated with SAMTEC IDC wire cable FFSD-05-D) The below tables describes the signals available / visible at each header: SO206 : ADC
1 VBAT_AUX 2 ADC_IN1 3 GND 4 ADC_IN2 5 GND 6 ADC_IN3 7 GND 8 TGPIO_07 9 1.8V 10 GND
SO205: DVI
1 DVI_WAO 2 VBAT_AUX 3 DVI_TX 4 1.8V 5 DVI_RX 6 TGPIO_04 7 DVI_CLK 8 GND 9 REF_CLK 10 GND
SO207: I2C
1 VBAT_AUX 2 I2C_SDA 3 1.8V 4 I2C_SCL 5 TGPIO_22 6 GND 7 I2C_SDA_AUX 8 GND 9 I2C_SCL_AUX 10 GND
SO208: SPI
1 SPI_MOSI 2 VBAT_AUX / 1.8V 3 SPI_MISO 4 TGPIO_11 5 SPI_CS 6 TGPIO_12 7 SPI_CLK 8 GND 9 GND 10 GND
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SO211: GPIO1
1 1.8V 2 TGPIO_01 3 TGPIO_02 4 TGPIO_03 5 TGPIO_04 6 TGPIO_05 7 TGPIO_06 8 TGPIO_07 9 TGPIO_08 10 GND
SO209: GPIO2
1 VBAT_AUX 2 1.8V 3 TGPIO_09 4 TGPIO_10 5 TGPIO_11 6 TGPIO_12 7 TGPIO_20 8 TGPIO_21 9 TGPIO_22 10 GND
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16. 120-Pin male B2B connectors The interface between IFBD and EVB is implemented via three units of 120p (20p x 6 rows) SAMTEC SEARAY 1.27mm High Speed/High Density B2B connectors (10mm stack height SEAM/SEAF). The below tables describe the detailed pin mapping. The actual pin functionality applied to each pin is determined according to the specific module features and according to the mapping done on each specific IFBD. It is likely that signal naming and signal functionality will be changed across the platform. Please refer to the User Guide of the specific IFBD in use for the actual pin mapping and pin description. Table 10 SO501
1 GND 2 GND 3 I2C_SCL_AUX 4 I2C_SDA_AUX 5 GND 6 SGMII_RX_M
7 USB_SS_RX_P 8 GND 9 I2C_SDA 10 TGPIO_06 11 SGMII_TX_M 12 SGMII_RX_P
13 USB_SS_RX_M 14 GND 15 TGPIO_05 16 I2C_SCL 17 SGMII_TX_P 18 GND
19 GND 20 GND 21 VREG_MSME 22 VREG_MSME 23 GND 24 PCIE_RX_P
25 USB_SS_TX_P 26 GND 27 28 29 PCIE_TX_P 30 PCIE_RX_M
31 USB_SS_TX_M 32 GND 33 TGPIO_12 34 SPI_MOSI 35 PCIE_TX_M 36 GND
37 GND 38 39 TGPIO_11 40 TGPIO_04 41 GND 42 PCIE_REFCLK_P
43 SPI_CS 44 TGPIO_02 45 TGPIO_03 46 SPI_MISO 47 48 PCIE_REFCLK_M
49 VAUX/PWRMON 50 VAUX/PWRMON 51 LED_DRV_EN 52 SPI_CLK 53 54
55 TGPIO_08 56 TGPIO_07 57 TGPIO_01 58 TGPIO_09 59 60 CSI2_D0_N
61 TGPIO_21 62 TGPIO_10 63 TGPIO_22 64 TGPIO_20 65 66 CSI2_D0_P
67 VMMC 68 VMMC 69 MMC_CD 70 MMC_DAT3 71 72 CSI2_CLK_N
73 MMC_DAT0 74 MMC_DAT2 75 MMC_CLK 76 MMC_DAT1 77 PCIE_EP_RESET_N 78 CSI2_CLK_P
79 GND 80 GND 81 C107/DSR 82 MMC_CMD 83 PCIE_CLKREQ_N 84 CSI1_D0_N
85 WIFI_SD0_TGPIO15 86 WIFI_SD1_TGPIO16 87 WIFI_SDCMD_TGPIO14 88 WIFI_SDRST_TGPIO13 89 TX_AUX 90 CSI1_D0_P
91 WIFI_SD5_TGPIO24 92 WIFI_SD2_TGPIO17 93 WIFI_SD3_TGPIO18 94 WIFI_SD4_TGPIO23 95 RX_AUX 96 CSI1_D1_N
97 WIFI_SD6_TGPIO25 98 WIFI_SD7_TGPIO26 99 WIFI_SDCLK_TGPIO19 100 WCI_TX 101 WCI_RX 102 CSI1_D1_P
103 C125/RING 104 RFCLK2_QCA 105 WLAN_SLEEP_CLK 106 C105/RTS 107 PCIE_EP_WAKE_N 108 CSI1_D2_N
109 C104/RXD 110 C109/DCD 111 C103/TXD 112 C106/CTS 113 C108/DTR 114 CSI1_D2_P
115 116 117 CSI1_CLK_P 118 CSI1_CLK_N 119 CSI1_D3_P 120 CSI1_D3_N
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Table 11 SO502 1 GPS_LNA_BIAS 2 GND 3 GPS_LNA_EN 4 MICBIAS 5 GND 6
7 GND 8 GND 9 GND 10 GND 11 GND 12
13 MIC2_MT+ 14 MIC2_MT- 15 GND 16 EAR2_MT- 17 EAR2_MT+ 18
19 GND 20 GND 21 GND 22 GND 23 GND 24 GND
25 MIC1_MT+ 26 MIC1_MT- 27 GND 28 EAR1_MT- 29 EAR1_MT+ 30 GND
31 SPKR_N 32 SPKR_P 33 34 35 36 MIC_VDD
37 GND 38 GND 39 D_MIC_CLK 40 D_MIC_DAT_1 41 GND 42 GND
43 TRXN0 44 GND 45 GND 46 GND 47 GND 48 GND
49 TRXP0 50 GND 51 GND 52 ADC_IN3 53 ADC_IN2 54 ADC_IN1
55 56 57 58 59 60
61 DVI_RX 62 DVI_TX 63 DVI_CLK 64 DVI_WAO 65 REF_CLK 66 GND
67 GND 68 GND 69 GND 70 GND 71 GND 72 eSIM_RST
73 GND 74 GND 75 GND 76 GND 77 SIMVCC1 78 SIMVCC1
79 HSIC_STB 80 HSIC_DATA 81 SIMCLK1 82 SIMIN1 83 SIMIO1 84 SIMRST1
85 HW_KEY 86 VRTC 87 ETH_RST_N 88 ETH_INT_N 89 SIMVCC2 90 SIMVCC2
91 USB_VBUS 92 USB_ID 93 SIMIN2 94 SIMIO2 95 SIMRST2 96 SIMCLK2
97 GND 98 GND 99 MAC_REF_CLK 100 MAC_TXEN_ER 101 MAC_MDIO 102 MAC_RXDV_ER
103 USB_D+ 104 GND 105 MAC_TXD[0] 106 MAC_MDC 107 MAC_RXD[0] 108 MAC_CRS_DV
109 USB_D- 110 GND 111 MAC_TXD[1] 112 MAC_TXD[2] 113 MAC_RXD[1] 114 MAC_RXD[2]
115 GND 116 GND 117 MAC_TX_CLK 118 MAC_TXD[3] 119 MAC_RX_CLK 120 MAC_RXD[3]
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Table 12 SO503
1 VBATT 2 VBATT 3 VBATT 4 VBATT_PA 5 VBATT_PA 6 VBATT_PA
7 VBATT 8 VBATT 9 VBATT 10 VBATT_PA 11 VBATT_PA 12 VBATT_PA
13 VBATT 14 VBATT 15 VBATT 16 VBATT_PA 17 VBATT_PA 18 VBATT_PA
19 20 21 22 VBATT_PA 23 VBATT_PA 24 VBATT_PA
25 26 27 28 29 30
31 32 33 34 35 36
37 DSI_CLK_P 38 DSI_CLK_N 39 40 41 42
43 DSI_D3_P 44 DSI_D3_N 45 46 47 48
49 DSI_D2_P 50 DSI_D2_N 51 52 53 54
55 DSI_D1_P 56 DSI_D1_N 57 TGPIO_27_TXD_GPS 58 TGPIO_28_RXD_GPS 59 TGPIO_29_RTS_GPS 60 TGPIO_30_CTS_GPS
61 DSI_D0_P 62 DSI_D0_N 63 64 65 66 D8_THERM_ASTAR
67 68 69 70 71 72
73 74 75 76 77 78
79 GND 80 GND 81 GND 82 GND 83 GND 84 GND
85 GND 86 GND 87 GND 88 GND 89 GND 90 GND
91 RESET 92 ON_OFF 93 STAT_LED 94 LED_DRV 95 SW_RDY 96 SHDN
97 GND 98 GND 99 GND 100 GND 101 102
103 GPS_PPS 104 GPS_RFPAON 105 GPS_CLK 106 GND 107 108 JTAG_PS_HOLD
109 GND 110 GND 111 GND 112 GND 113 JTAG_TDI 114 D_MIC_DAT_2
115 JTAG_TMS 116 JTAG_TDO 117 JTAG_TRST 118 JTAG_TCK 119 JTAG_RTCK 120 JTAG_RESOUT
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17. Extension connector As described above, the EVB features can be extended by adding / designing extension cards which are then plugged into SO506 connector of the EVB main board. The extension connector detailed pin allocation is shown in the table below. The actual functionality of each signal is determined by the specific module in use and by the specific extension card. It is likely that signal naming and signal functionality will be changed across the platform. Please refer to the relevant extension card HW User Guide.
1 VBAT_AUX 2 VBAT_AUX 3 DSI_CLK_N 4 DSI_CLK_P 5 DSI_D3_N 6 DSI_D3_P
7 GND 8 GND 9 GPS_PPS 10 WIFI_SDCMD_TGPIO14 11 WCI_RX 12 DSI_D2_N
13 VAUX/PWRMON 14 WIFI_SD4_TGPIO23 15 LED_DRV 16 WIFI_SDCLK_TGPIO19 17 TGPIO_30_CTS_GPS 18 DSI_D2_P
19 1V8 20 WIFI_SD3_TGPIO18 21 LED_DRV_EN 22 WIFI_SD7_TGPIO26 23 DSI_D1_N 24 DSI_D1_P
25 WCI_TX 26 RFCLK2_QCA 27 WIFI_SD2_TGPIO17 28 WIFI_SD5_TGPIO24 29 DSI_D0_N 30 DSI_D0_P
31 I2C_SCL_AUX 32 I2C_SDA_AUX 33 WIFI_SD0_TGPIO15 34 WIFI_SD1_TGPIO16 35 CSI1_CLK_P 36 CSI1_CLK_N
37 I2C_SDA_EXT 38 I2C_SCL_EXT 39 WIFI_SD6_TGPIO25 40 WIFI_SDRST_TGPIO13 41 CSI1_D3_P 42 CSI1_D3_N
43 TGPIO_20 44 TGPIO_01 45 TGPIO_02 46 TGPIO_03 47 CSI1_D2_P 48 CSI1_D2_N
49 TGPIO_21 50 TGPIO_04 51 TGPIO_05 52 TGPIO_06 53 CSI1_D1_P 54 CSI1_D1_N
55 TGPIO_22 56 TGPIO_07 57 TGPIO_08 58 TGPIO_09 59 CSI1_D0_P 60 CSI1_D0_N
61 ETH_INT_N 62 TGPIO_10 63 TGPIO_11 64 TGPIO_12 65 CSI2_CLK_P 66 CSI2_CLK_N
67 ETH_RST_N 68 PCIE_CLKREQ_N 69 PCIE_EP_WAKE_N 70 PCIE_EP_RESET_N 71 CSI2_D0_P 72 CSI2_D0_N
73 MAC_RXDV_ER 74 MAC_MDIO 75 TGPIO_29_RTS_GPS 76 TGPIO_28_RXD_GPS 77 TGPIO_27_TXD_GPS 78 PCIE_REFCLK_M
79 MAC_CRS_DV 80 MAC_MDC 81 WLAN_SLEEP_CLK 82 REF_CLK 83 GND 84 PCIE_REFCLK_P
85 MAC_RXD[3] 86 MAC_TXEN_ER 87 DVI_CLK 88 DVI_WAO 89 PCIE_TX_M 90 GND
91 MAC_RXD[2] 92 MAC_REF_CLK 93 DVI_RX 94 DVI_TX 95 PCIE_TX_P 96 PCIE_RX_M
97 MAC_RX_CLK 98 MAC_TXD[2] 99 SPI_CLK 100 SPI_CS 101 GND 102 PCIE_RX_P
103 MAC_RXD[1] 104 MAC_TX_CLK 105 SPI_MISO 106 SPI_MOSI 107 SGMII_TX_P 108 GND
109 MAC_RXD[0] 110 MAC_TXD[1] 111 GND 112 GND 113 SGMII_TX_M 114 SGMII_RX_P
115 MAC_TXD[3] 116 MAC_TXD[0] 117 USB_EXT_D- 118 USB_EXT_D+ 119 GND 120 SGMII_RX_M
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18. EVB Component diagram
CS1742C-Placement.pdf
Figure 38 EVB component diagram TOP view
Telit EVB User Guide 1VV0301249 Rev.0.9 – 2016-09-20
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Figure 39 EVB component diagram Bottom view
Telit EVB User Guide 1VV0301249 Rev.0.9 – 2016-09-20
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19. Schematics
CS1742C-Schematics.pdf
Telit EVB User Guide 1VV0301249 Rev.0.9 – 2016-09-20
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Telit EVB User Guide 1VV0301249 Rev.0.9 – 2016-09-20
Reproduction forbidden without written authorization from Telit Communications S.p.A. - All Rights Reserved. Page 52 of 56 Mod. 0805 2015-02 Rev.4
Telit EVB User Guide 1VV0301249 Rev.0.9 – 2016-09-20
Reproduction forbidden without written authorization from Telit Communications S.p.A. - All Rights Reserved. Page 53 of 56 Mod. 0805 2015-02 Rev.4
Telit EVB User Guide 1VV0301249 Rev.0.9 – 2016-09-20
Reproduction forbidden without written authorization from Telit Communications S.p.A. - All Rights Reserved. Page 54 of 56 Mod. 0805 2015-02 Rev.4
Telit EVB User Guide 1VV0301249 Rev.0.9 – 2016-09-20
Reproduction forbidden without written authorization from Telit Communications S.p.A. - All Rights Reserved. Page 55 of 56 Mod. 0805 2015-02 Rev.4
20. Safety Recommendations
READ CAREFULLY Be sure the use of this product is allowed in the country and in the environment required. The use of this product may be dangerous and has to be avoided in the following areas:
• Where it can interfere with other electronic devices in environments such as hospitals, airports, aircrafts, etc.
• Where there is risk of explosion such as gasoline stations, oil refineries, etc. It is responsibility of the user to enforce the country regulation and the specific environment regulation.
Do not disassemble the product; any mark of tampering will compromise the warranty validity. We recommend following the instructions of the hardware user guides for a correct wiring of the product. The product has to be supplied with a stabilized voltage source and the wiring has to be conforming to the security and fire prevention regulations. The product has to be handled with care, avoiding any contact with the pins because electrostatic discharges may damage the product itself. Same cautions have to be taken for the SIM, checking carefully the instruction for its use. Do not insert or remove the SIM when the product is in power saving mode. The system integrator is responsible of the functioning of the final product; therefore, care has to be taken to the external components of the module, as well as of any project or installation issue, because the risk of disturbing the GSM network or external devices or having impact on the security. Should there be any doubt, please refer to the technical documentation and the regulations in force. Every module has to be equipped with a proper antenna with specific characteristics. The antenna has to be installed with care in order to avoid any interference with other electronic devices and has to guarantee a minimum distance from the body (20 cm). In case of this requirement cannot be satisfied, the system integrator has to assess the final product against the SAR regulation. The European Community provides some Directives for the electronic equipments introduced on the market. All the relevant information’s are available on the European Community website: http://ec.europa.eu/enterprise/sectors/rtte/documents/ The text of the Directive 99/05 regarding telecommunication equipments is available, while the applicable Directives (Low Voltage and EMC) are available at: http://ec.europa.eu/enterprise/sectors/electrical/
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21. Document History
Revision Date Changes 0.1 2015-12-16 First draft 0.2 2016-01-02 Minor edits 0.3 2016-02-08 Minor edits 0.4 2016-05-23 Updates for HE922-3GR
Updates for a proper generic EVB description 0.5 2016-05-28 Update per Internal Review comments 0.6 2016-06-06 Fixed typo in Chapter 4 (default Jumper setting) 0.7 2016-08-24 Added GPS LNA control description
Several formatting changes Naming convention change: from SDK to EVB
0.8 2016-09-02 Minor edits 0.9 2016-09-20 Adding Class D bypass option
Update jumpers Settings Table 13 – Revision History
Communications S.p.A.
FORBIDDEN
VIETATE
ALL RIGHTS RESERVED
RIPRODUZIONE E DIVULGAZIONE
REPRODUCTION AND DISCLOSURE
TUTTI I DIRITTI RISERVATI
PROJECT
A3
DESCRIPTION
DRAWING CODE
FORM
MODIFY
OF SHEETS
DATE
SHEET N.
VERIFIED
PROJECT
DRAWN
PATH /sedna/archive/sch
ANNOTATION
FILE NAME
B
C
D
E
A
42 98 1071 3 1165
D1
003:8B
CHG_BAT
VIN
CHG_BAT
D2003:3A;003:8B
SMPS
D3003:3A;003:8B
SMPS
U103PCA9509D
8VCC_B
3A2
4GND
6B2
2A1
5EN
1VCC_A
7B1
VRTC005:5C
Q101
SI3447CDV-T1-GE3
TSOP-6
4
S3
G
1
D256
VBAT_AUX
D103
SOT-323@MarkBAT54CWT1G
3
2 1
D104
SOT-323@MarkBAT54CWT1G
3
2 1
PL1011982295-1
2
1
PL1021982295-1
2
1
R101620
5%
0402
R1081K
5%
0402
R1072.2K
5%
0402
PL106471-1955-103-400
2
1
3
PL109471-1955-103-40021 3
R1035.6K
5%
0402
PL110471-1955-103-400
21 3
R10510K
5%
0402
PL111471-1955-104-400
3
2
1
4
R106
10K
5%
0402
PL112471-1955-104-400
3
2
1
4
R112
10K
5%
0402
PL108471-1955-102-400
2
1
R10412K
5%
0402
U101
BQ24261MRGER
23
S_23
10
INT
14PSEL
9
BAT_9
15NC
16SCL
18IN_18
13STAT
20
AGND_20
8
BAT_8
24
SW_24
2BOOT
3DRV
4CD
5TS
1PMID
17SDA
11
BGATE
12
AGND_12
19
IN_19
6SYS_6
21
PGND_21
22
PGND_22
7
SYS_7
25
PKG
R1091M
5%
0402
C11210nF
0402
16VX7R
LM2596S-ADJ-NOPBU102
1+VIN
4FBACK
2VOUT
5ON/OFF
6
TAB
3
GNDC10810nF
0603
50VX7R
C119100nF
0402
16VX7R
U104MAX9611AUB+
10uMAX
10VCC
3RS-
4SET
8A1
2RS+
7SDA
1OUT
9A0
5GND
6SCL
C120100nF
0402
16VX7R
U105MAX9611AUB+
10uMAX
10VCC
3RS-
4SET
8A1
2RS+
7SDA
1OUT
9A0
5GND
6SCL
C1071uF
0402
10VX5R
C1032.2uF
0402
10VX5R
C109
10uF
0603
10VX5R
C111
10uF
0603
10V
X5R
C113
10uF
0603
10VX5R
PL107471-1955-102-400
2
1
VIN_3V8
PL103471-1955-103-400
2
1
3
L10247uH
SLF12575
PL105471-1955-103-400
2
1
3
D102STPS3L60UG36SMB
D101STPS3L60UG36SMB
D105STPS3L60UG36SMB
OT101 OT102 OT103
C116470uF
CONT-E
10V
C117470uF
CONT-E
10V
C114470uF
CONT-E
10V
D4003:8B
D6003:8B
VCC_ASTAR
C1184.7uF
0402_PLUS1
10VX5R
C11522uF
CONT-C
10V@Tc
1V8
+3.3V_ASTAR
C12210nF
0603
50VX7R
C12110nF
0603
50VX7R
C123470uF
CONT-E
10V
USB_VBUS005:5C;002:6E
D106
DFLS230LH
.DFLS230
FTDI_VBUS003:2B
D107
DFLS230LH
.DFLS230
PL113471-1955-102-400
2
1
PL114471-1955-102-400
2
1
D0
003:8B
PL115471-1955-102-400
2
1VAUX/PWRMON005:2D;005:8D;005:11B
SO101RAPC712X
RAPC
123
RT10110K
04025%
C101100uF
CONT-E
25V
C105100uF
CONT-E
25V
C104100uF
CONT-E
25V
C102100uF
CONT-E
25V
PL116471-1955-102-400
2
1HW_KEY005:5C
VBATT_PA005:6A
VBATT005:6A
DCK-3R3E204T614-EBT101
3.3V
FDSD0412-H-1R5M=P3L101
4.2x4.2x1.2
PL10453261-0371
2
1
3
DL101LS-M676-P2S1-1
REDM676
R1160.050
1%
CSR1206
R1130.250
1%
CSR1206
C1064.7uF
CONT-B
25V@Tc
R1104.7K
5%
0402
R1114.7K
5%
0402
R1144.7K
5%
0402
R1154.7K
5%
0402
OT104 OT105 OT106
R102
0 0
0402
C1244.7uF
0402_PLUS1
10VX5R
L103600 ohm
BLM03AX
C125470uF
CONT-E
10V
C126470uF
CONT-E
10V
D108
SOT-323@MarkDF3A6_8FUT1
3
2 1
D109
SOT-323@MarkDF3A6_8FUT1
3
2 1
R1180 0
0402
noMount=YES
R119
0 00402
noMount=YES
I2C_SCL005:2B;003:1A;002:6D
I2C_SDA005:2A;003:1A;002:6D
R121
0 00402
R1200 0
0402
C110
33nF
0402
25V
X7R
R117470
5%
0402
Telit EVB
1 5
POWER REGULATOR / BATTERY CHARGE
+
-
charger
smps buck
2-3 : 3.8V
1-2 : smps buck
2-3 : smps buck / bypass
1-2 : charger/battery
battery
6-15V
2-3 : smps buck
1-2 : battery
+
-
3.8V
STAT
INT
CD
SDA
SCL
0.05 ohm 1%
3G/4G 0.5A drop 25mV|| gainx8 : 200mV
2G 2A drop 100mV||gainx4 : 400mV
0.25 ohm 1%
normal:0.5A:drop 125mV || gainx1:125mV
sleep:1mA: drop 0.25mV || gainx8:2mV
PABASEBAND
(max 2mV offset)
full scale max 440mV
bypass
PWRON
supercap 0.2F
GND probe
03/08/2016
MICRO
SDCARD
Detect
SIM_CARD
SIM_CARD
FORBIDDEN
VIETATE
ALL RIGHTS RESERVED
RIPRODUZIONE E DIVULGAZIONE
REPRODUCTION AND DISCLOSURE
TUTTI I DIRITTI RISERVATI
PROJECT
A3
DESCRIPTION
DRAWING CODE
FORM
MODIFY
OF SHEETS
DATE
SHEET N.
VERIFIED
PROJECT
DRAWN
PATH /sedna/archive/sch
ANNOTATION
FILE NAME
B
C
D
E
A
42 98 1071 3 1165
VBAT_AUX
D201
SOT-323 @MarkBAT54CWT1G
3
21
R203
0
0
0402
noMount=YES
R211
30
5%
0402
R21310K
5%
0402
R21410K
5%
0402
R21510K
5%
0402
R21610K
5%
0402
R21710K
5%
0402
R204
15K5%0402
noMount=YES
R208
15K5%0402
noMount=YES
R201
51K5%0402
R202
100K5%
0402
R205 1
00K5%
0402
R206
200K 5%
0402
R207200K
5%
0402
C21522pF
0402
50VCOG
C21633pF
0402
50VCOG
SIMCLK2005:5B
SIMCLK1_CONN002:3A
SIMIN2005:5C
SIMRST1_CONN002:3A
SIMIN1_CONN002:3A
SIMCLK1_ESIM002:3B
SIMRST1_ESIM002:3B
SIMIO2005:5C
VBAT_AUX
SIMRST2005:5B
VBAT_AUX
MMC_DAT0005:3D
MMC_DAT2005:3D
SIMRST1005:5C
MMC_CMD005:3C
VBAT_AUX
MMC_DAT3005:3D
MMC_CD005:3D
SIMIO1_CONN002:3B
SPI_MOSI005:2C;005:10B
JTAG_TCK005:7A
VMMC005:3D;002:8A
JTAG_PS_HOLD005:7B
TGPIO_10005:3D;005:10D
JTAG_RTCK005:7A
MMC_DAT1005:3D
JTAG_TMS005:7A
SPI_CS005:2C;005:10B
JTAG_TDI005:7A
SPI_MISO005:2D;005:10B
MMC_CLK005:3D
JTAG_TDO005:7A USB_ID
005:5C
TGPIO_12005:2C;005:10D;002:7C
R209
15K5%0402
noMount=YES
USB_VBUS001:1C;005:5C
TGPIO_09005:2D;005:11D
USB_D+_conn002:7B
USB_D-_conn002:7B
TGPIO_02005:2C;005:11D;002:7B
VBAT_AUX
SPI_CLK005:2D;005:10B
SO204PJS008-2130-0
1DATA2
2CD/DATA3
3CMD
4VDD
5CLK
7DATA0
8DATA1
9SW210 SW1
11PKG_GND11
12PKG_GND12
13PKG_GND13
6VSS
14PKG_GND14
VBAT_AUX
U203NX3DV2567GU
8 3Z
151Y1
10 NC
6GND
32Y1
93Y0
114Y1
4 2Z
12 4Z
11Y0
73Y1
16 1Z
134Y02 S
14
VCC
52Y0
DVI_RX005:5D;005:10C
C217100nF
0402
16VX7R
TGPIO_20005:3D;005:11C;003:3D
PL201471-1955-103-400
2
1
3
PL202471-1955-103-400
2
1
3
PL20370246-2001
3
2
1
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
TGPIO_03005:2D;005:11D
DG9431DV-T1-E3U201
TSOP-06
6NO
4NC
1IN
3 GND
5 COM
2 VCC
SIMCLK1005:5C
DG9431DV-T1-E3U202
TSOP-06
6NO
4NC
1IN
3 GND
5 COM
2 VCC
SIMIO1005:5C
SO201FMS008-6001-0
1C1
7C7
6C6
3C3
2C2
9 10
5C5
4C4 8C8
SIMCLK1_CONN002:4A
TGPIO_07005:2D;005:11D;002:11C
SO202FMS008-6001-0
1C1
7C7
6C6
3C3
2C2
9 10
5C5
4C4 8C8
SIMIO1_CONN002:4A
DVI_TX005:5D;005:10C
SIMIN1_CONN002:4B
TGPIO_08005:2D;005:11D
SIMRST1_CONN002:4A
SIMCLK1_ESIM002:4B
TGPIO_06005:2B;005:11D
SIMIO1_ESIM002:6B
SIMRST1_ESIM002:4B
TGPIO_11005:2C;005:10D;002:7C
SIMIO1_ESIM002:3B
DVI_CLK005:5D;005:10C
REF_CLK005:5D;005:10C
JTAG_RESOUT005:7A
JTAG_TRST005:7A
R210
0
0
0402
VBAT_AUX
VBAT_AUX
TGPIO_04005:2C;005:11D;002:10D
TGPIO_01005:2D;005:11C
TGPIO_05005:2B;005:11D
TGPIO_04005:2C;005:11D;002:8CI2C_SCL
001:6C;005:2B;003:1A
I2C_SDA001:6C;005:2A;003:1A
I2C_SCL_AUX005:2A;005:11C
I2C_SDA_AUX005:2A;005:11C
VBAT_AUX
TGPIO_07005:2D;005:11D;002:10D
ADC_IN3005:4D
ADC_IN2005:4D
ADC_IN1005:4D
VBAT_AUX
VBAT_AUX
C2031uF
0402
6.3VX5R
D204UCLAMP0502P_TCTSLP1006P31 2
3
C2111uF
0402
6.3VX5R
C2101uF
0402
6.3VX5R
C2041uF
0402
6.3VX5R
DG9431DV-T1-E3U206
TSOP-06
6NO
4NC
1IN
3 GND
5 COM
2 VCC
SIMIN1005:5C
VBAT_AUX
R218
220.0K
1%
0402
SIMCTRL003:8A
U207ECLAMP2465T_TCT
8DATA_IC
3RESET
4NC
6RESET_IC
2CLK
5VCC
1DATA
7CLK_IC
9
GND_PKG
U208ECLAMP2465T_TCT
8DATA_IC
3RESET
4NC
6RESET_IC
2CLK
5VCC
1DATA
7CLK_IC
9
GND_PKG
DVI_WAO005:5D;005:10C
Q201SI2333CDS
3
D
2
S 1G
eSIM_RST005:5D;002:2D
SIMVCC2005:5C
SIMVCC1005:5C;002:4B
SIMVCC1005:5C;002:4A
eSIM_RST005:5D;002:2B
VMMC005:3D;002:8A
TGPIO_22005:3D;005:11D;002:6D
TGPIO_21005:3D;005:11D
TGPIO_12005:2C;005:10D;002:8D
TGPIO_11005:2C;005:10D;002:8D
PL206471-1955-103-400
2
1
3
TGPIO_22005:3D;005:11D;002:8D
R221
51K5%0402
noMount=YES
U209TS3USB221RSE
RES/R-PUQFN-N10
10VCC
32D+
42D-
8D+
21D-
7D-
11D+
9S
5GND
6OE
MIC5366-3_0YC5U210
66PSC-70-5
1IN
3EN
4NC
5OUT
2GND
VBAT_AUX
C20233pF
0402
50VCOG
C2011uF
040210V
X5R
C2061uF
0402
10VX5R
USB_EXT_D+005:10A
USB_EXT_D-005:10A
USB_D+005:5B
USB_D-005:5B
USB_D+_conn002:6E
USB_D-_conn002:6E
C205 100nF
0402
16VX7R
TGPIO_02005:2C;005:11D;002:10D
Q203ESD7104MUTAG
1 I/O_1
2 I/0_2
3 GND_3
4 I/O_4
5 I/O_5 6NC_6
7NC_7
8GND_8
9NC_9
10NC_10
Q202ESD7104MUTAG
1 I/O_1
2 I/0_2
3 GND_3
4 I/O_4
5 I/O_5 6NC_6
7NC_7
8GND_8
9NC_9
10NC_10
USB_SS_TX_P005:2B
USB_SS_TX_M005:2C
USB_SS_RX_M005:2BUSB_SS_RX_P005:2A
ESDA6V1BC6
VS202
BS55
.
1
3 4
52
6
D203CM1230-08CP
2.46x0.96x0.72
A1 A2
A3 A4A5
B1 B2B3
B4B5
D202CM1230-08CP
2.46x0.96x0.72
A1 A2
A3 A4A5
B1 B2B3
B4B5
D207CM1230-08CP
2.46x0.96x0.72
A1 A2
A3 A4A5
B1 B2B3
B4B5
D208CM1230-08CP
2.46x0.96x0.72
A1 A2
A3 A4A5
B1 B2B3
B4B5
D209CM1230-08CP
2.46x0.96x0.72
A1 A2
A3 A4A5
B1 B2B3
B4B5
D210CM1230-08CP
2.46x0.96x0.72
A1 A2
A3 A4A5
B1 B2B3
B4B5 D211CM1230-08CP
2.46x0.96x0.72
A1 A2
A3 A4A5
B1 B2B3
B4B5
1V8
1V8
1V8
1V8
1V8
1V8
1V8
1V8
1V8
1V81V8
1V8
1V8
SO205SHF-105-01-L-D-SM-K
3
2
1
4
5
6
7
8
9
10
SO208SHF-105-01-L-D-SM-K
3
2
1
4
5
6
7
8
9
10
SO211SHF-105-01-L-D-SM-K
3
2
1
4
5
6
7
8
9
10
SO207SHF-105-01-L-D-SM-K
3
2
1
4
5
6
7
8
9
10
SO209SHF-105-01-L-D-SM-K
3
2
1
4
5
6
7
8
9
10
SO206SHF-105-01-L-D-SM-K
3
2
1
4
5
6
7
8
9
10
R220
100K5%
0402
PL204471-1955-103-400
2 13
1V8
SO203GSB343K33HR
3USB_D+
2USB_D-
1VBUS
4OTG_ID
5GND_5
6USB3_SSTX-
7USB3_SSTX+
8GND_8
9USB3_SSRX-
10USB3_SSRX+
11GND_11
12GND_12
U204PQ-AX-00038
8VDD
3I/O
4NC4
6CLK
2NC2
5NC5
1GND
7RST
9
GND_PKG
R2121M
5%
0402R22339K
5%
0402
C218100nF
0402
16VX7R
C22010uF
0603
10VX5R
C21410uF
060310V
X5R
R222110K
5%
0402
RT9053AGBU205
SOT-23-5
VIN1
GND2
EN3
FB4
VOUT5
INTERFACE CONNECTORS
2 5
JTAG CONNECTOR
SIM1
MMC
USB2.0
Telit EVB
MISCELLANEOUS FUNCTIONS
int/ext sim
esim/conn
SIM2
USB SEL
S high : D=2D
S low : D=1D
tgpio_02 default low
USB3.0
03/08/2016
Communications S.p.A.
47K
10K
47K
10K
at 100MHz
ON
FORBIDDEN
VIETATE
ALL RIGHTS RESERVED
RIPRODUZIONE E DIVULGAZIONE
REPRODUCTION AND DISCLOSURE
TUTTI I DIRITTI RISERVATI
PROJECT
A3
DESCRIPTION
DRAWING CODE
FORM
MODIFY
OF SHEETS
DATE
SHEET N.
VERIFIED
PROJECT
DRAWN
PATH /sedna/archive/sch
ANNOTATION
FILE NAME
B
C
D
E
A
42 98 1071 3 1165
B_TXD
B_RXD
A_RTS
A_RI
A_DSR
A_DCD
A_DTR
A_CTS
A_RXD
A_TXD
SW_RDY005:7B
D5
003:8B
+3.3V_ASTAR
VCC_ASTAR
A0
003:8D
C3014.7uF
0402_PLUS1
10VX5R
A1
003:11DD10
003:10D
SO302477-9726-110-470
3
2
1
4
5
6
7
8
9
10
D11
003:3D
SO303477-9726-110-470
3
2
1
4
5
6
7
8
9
10
D12
003:3E
D5
003:3E
Q301BCR135WSOT-323WJs
2
3
1
Q302BCR135WSOT-323WJs
2
3
1
BLM15PD300SN1L301
BLM15
D6
001:6E
U303
FT2232D
LQFP48
63V3OUT
8USBDM
7USBDP
5RSTOUT
4RESET
43XTIN
44XTOUT
48EECS
1EESK
2EEDATA
47TEST
45
AGND
9GND_9
18
GND_18
25
GND_25
34
GND_34
41PWREN
26SI/WUB
27BCBUS3
28BCBUS2
29BCBUS1
30BCBUS0
32BDBUS7
33BDBUS6
35BDBUS5
36BDBUS4
37BDBUS3
38BDBUS2
39BDBUS1
40BDBUS0
10SI/WUA
11ACBUS3
12ACBUS2
13ACBUS1
15ACBUS0
16ADBUS7
17ADBUS6
19ADBUS5
20ADBUS4
21ADBUS3
22ADBUS2
23ADBUS1
24ADBUS0
31
VCCIOB
14
VCCIOA
42
VCC_42
3VCC_3
46
AVCC
D3
001:10D;003:3A
D4
001:6E
L30210uH
1210
D1
001:4B
D2
001:10D;003:3A
D0
001:3D
X301NX1255GB6.000MHz
CP12A
3
21
4
ON_OFF005:7C
STAT_LED005:7C
RESET005:7C
D12
003:10B
D11
003:10B
VBAT_AUX
VBAT_AUX
VCC_ASTAR
C31622uF
CONT-C
10V
C32122uF
CONT-C
10V
U301SN65220DBV
5GND_5
1NC_1
2GND_2
6A
3NC_3
4B
SHDN005:7B
VBAT_AUX
D8_THERM_ASTAR
005:7D
LT1613CS5U309
LTEDSOT23-5
1SW
3FB
4SHDN
5VIN
2GND
D303
SOT-323 @MarkBAT54CWT1G
3
21
5V_USB
D302
SOT-323 @MarkBAT54CWT1G
3
21
5V_USB
D301
SOT-323 @MarkBAT54CWT1G
3
21
5V_USB
TX_AUX005:3C
RX_AUX005:3B
3V3_OUT
5V_USB
U308SN74AVC4T245D
8GND_8
32DIR
121B2
41A1
62A1
112B1
16VCCB
21DIR
9GND_9
102B2
151OE
142OE
51A2
1VCCA
72A2
131B1
U306SN74AVC4T245D
8GND_8
32DIR
121B2
41A1
62A1
112B1
16VCCB
21DIR
9GND_9
102B2
151OE
142OE
51A2
1VCCA
72A2
131B1
U305SN74AVC1T45DBVR
5DIR
1VCCA
2GND
6VCCB
3A
4B
U307SN74AVC1T45DBVR
5DIR
1VCCA
2GND
6VCCB
3A
4B
U304SN74AVC1T45DBVR
5DIR
1VCCA
2GND
6VCCB
3A
4B
R303
27
5%
0402
3V3_OUT
R304
27
5%
0402
R307330
5%
0402
R308330
5%
0402
R305
470
5%
0402
R309
1K
5%
0402
R310
1K
5%
0402
R311
1K
5%
0402
R312
1K
5%
0402
R306
1.5K
5%
0402
R302
2.2K
5%
0402
R30110K
5%
0402
R31310K
5%
0402
R31410K5% 0402
R315
10K5%
0402
R31710K
5%
0402
C30227pF
0402
50VCOG
3V3_OUT
C30327pF
0402
50VCOG
3V3_OUT
C31833pF
0402
50VCOG
3V3_OUT
C319330pF
0402
50VX7R
3V3_OUT
VBAT_AUX
C306
100nF
0402
16VX7R
C307100nF
0402
16VX7R
C304
100nF
0402
16V
X7R
C305
100nF
0402
16V
X7R
C310100nF
0402
16VX7R
C315100nF
0402
16VX7R
C314100nF
0402
16VX7R
C311100nF
0402
16VX7R
C313100nF
0402
16VX7R
C309100nF
0402
16VX7R
C312100nF
0402
16VX7R
C308100nF
0402
16VX7R
C3171uF
040210V
X5R
C3201uF
0402
10VX5R
MIC5319-3_3YD5U310
N933TSOT-23-5
3 EN
1 VIN 5VOUT
4BYP
2
GND
C322100nF
0402
16VX7R
SW304TDA02H0SB1R
1
4
2
3
C323
100nF
0402
16VX7R
C324100nF
0402
16VX7R
FTDI_VBUS001:2D
R318
10K
5%
0402
C3251uF
040210V
X5R
C3264.7uF
0402_PLUS1
10VX5R
U311LTC3528BEDDB
2FB
7
SGND
8VIN
6
PGND
1SHDN
3PGOOD
4VOUT
5
SW
9
GND_PKG
R320680.0K
1%
0402
R321220.0K
1%
0402
C3304.7uF
0402_PLUS1
10VX5R
VBAT_AUX
R319
10K
5%
0402
C32722uF
CONT-C
10V
C32833pF
0402
50VCOG
R32247.0K
1%
0402
R32447.0K
1%
0402
VCC_ASTAR
D10003:10A
A1
003:10A
A0
003:10A
C329220uF
CONT-E
16V
SO30154819-0572
3
2
1
4
5
DZ2PESD5V0V1BLSOD882
DZ1PESD5V0V1BLSOD882
DZ3PESD5V0V1BLSOD882
DZ4PESD5V0V1BLSOD882
SW302
1437566-4
2 1
SW303
1437566-4
2 1
SW301
1437566-4
2 1
SW306
1437566-4
21
SW305
1437566-4
2 1
DZ301PESD5V0V1BLSOD882
R32610K
5%
0402
SIMCTRL002:2C
PL302471-1955-102-400
2 1
TGPIO_20005:3D;005:11C;002:8D
C107/DSR005:3C
C109/DCD005:3B
C125/RING005:3B
C105/RTS005:3B
C108/DTR005:3A
C104/RXD005:3B
C106/CTS005:3A
C103/TXD005:3B
1V8
U30293LC56B_I-SN
8VCC
3DI
4DO
6ORG
2CLK
5VSS
1CS
7NC
D3041N4148WT
@Mark
D305
1N4148WT
@Mark
C331100nF
0402
16VX7R
DL302LS-M676-P2S1-1
REDM676
DL301LY-M676-Q
YELLOWM676
L3034.7uH
0806
D306NSR0520V2T1G@MarkSOD-523
D307NSR0520V2T1G@MarkSOD-523
VIN
R31643K
5%
0402
PL30153261-0371
2
1
3
Q303SI3447CDV-T1-GE3
TSOP-6
4
S3
G
1
D256
R325
10K5%
0402
1V8
1V8
1V8
1V8
U312PCA9509D
8VCC_B
3A2
4GND
6B2
2A1
5EN
1VCC_A
7B1
R329
10K5%
0402
D3
001:10D;003:8B
D2
001:10D;003:8B
VCC_ASTAR
I2C_SDA001:6C;005:2A;002:6D
I2C_SCL001:6C;005:2B;002:6D
1V8
R3270 0
0402
R328
0 00402
I2C_SCL_EXT005:11C
I2C_SDA_EXT005:11C
DZ308PESD5V0V1BLSOD882
ASTAR_3_3V_EN
003:8C
ASTAR_3_3V_EN
003:10B
R330
0
0
0402
R33110
5%
1206
3 5
UART / RC
mini USB
RESET BUTTON
ON BUTTON
STAT_LED
A-star
SDA
SCL
ON/OFF
RESET
PWMAIN0
MAIN UART
REMOTE CONTROL
RST ASTAR
AUX UART
INT
STAT
RESET
ON/OFF
SHDN BUTTON
SW_RDY_LED
SHDN
SHDN
Telit EVB
PWRON
CD
PWM
SENSE
SENSE
FAN_EN
FAN_EN
ECALL BUTTON
FORCE FLASH MODE
D9
D8
6.5V
SCL
SDA
03/08/2016
Communications S.p.A.
Communications S.p.A.
noMount=YES
FORBIDDEN
VIETATE
ALL RIGHTS RESERVED
RIPRODUZIONE E DIVULGAZIONE
REPRODUCTION AND DISCLOSURE
TUTTI I DIRITTI RISERVATI
PROJECT
A3
DESCRIPTION
DRAWING CODE
FORM
MODIFY
OF SHEETS
DATE
SHEET N.
VERIFIED
PROJECT
DRAWN
PATH /sedna/archive/sch
ANNOTATION
FILE NAME
B
C
D
E
A
42 98 1071 3 1165
VBAT_AUX
SO401SJ-43514-SMT
SJ-43514-SMT
1
234
BIAS004:2C;004:3D;004:5C
JACK_L004:2E
JACK_R004:2E
C412
220uF
CONT-E
16V
C413
220uF
CONT-E
16V
AMP_P004:5E
MIC5366-3_0YC5U402
66PSC-70-5
1IN
3EN
4NC
5OUT
2GND
AMP_M004:6E
R409
0 0
0402
VBAT_AUX
R4011.1K
5%
0402
R403
1.1K
5%
0402
R4022.2K
5%
0402
R4042.4K
5%
0402
R410
20K5%
0402
R411
20K5%
0402
R413
20K5%
0402
D401
STPS2L40U
GD4
SMB
R414
20K5%
0402
R40722K
5%
0402
R40624K
5%
0402
R408100K
5%
0402
R412100K
5%
0402
R4054.87K
1%
0402
C419
220pF
0402
25V
COG
C40422pF
0402
50VCOG
C40522pF
0402
50VCOG
C40622pF
0402
50VCOG
C40722pF
0402
50VCOG
C40822pF
0402
50VCOG
C40922pF
0402
50VCOG
C41022pF
0402
50VCOG
MICBIAS005:4A;004:2C;004:3D;004:5C
JACK_BIAS004:3D
C424
100nF
0402
16VX7R
JACK_MIC+004:2D
C4161uF
0603
25VX7R
C4181uF
0603
25VX7R
RJ11_MIC+004:4D
RJ11_BIAS004:2C
RJ11_MIC-004:5D
RJ11_EAR+004:2E;004:2ERJ11_EAR-004:3E;004:3E
L4012250
BLM21
L4022250
BLM21
L4032250
BLM21
L4042250
BLM21
L4062250
BLM21L4072250
BLM21
U401
LM48511SQ
FB_SEL1
SW_2
2
SW_3
3
SOFTSTART4
SD_AMP5
SS/FF6
GND
7
LS+8
LSGND_9
9
PV110
LSGND_11
11
LS-12
V113
VG0+14
IN-15
IN+16
VG0-17
VDD
18
FB19
FB_GND120
FB_GND021
REGGND_22
22
REGGND_23
23
SD_BOOST24
GND_THERMAL
25
PL40185502-5005
3
2
1
4
Q401
BC847BW
SOT-323
1Fs
2
31
C401
1uF
0402
10V X5R
C402
1uF
0402
10V X5R
C411
1uF
0402
10V X5R
C414
1uF
0402
10V X5R
C415
1uF
0402
10V X5R
C4201uF
0402
10VX5R
C426
1uF
0402
10V
X5R C427
1uF
0402
10V
X5R
C42310uF
0603
10VX5R
C422
22uF
CONT-C
10V
@Tc
C4252.2uF
0402
10VX5R
C4212.2uF
0402
10VX5R
SHDN_AMP004:8D
SHDN_AMP004:11B
PL411471-1955-102-400
2
1
GPS_LNA_EN005:4A
GPS_BIAS_EN005:8B
VBAT_AUX
AMP_P004:11B
EAR1_MT+005:4C;004:2E
EAR2_MT+005:4B;004:2E
AMP_M004:11B
EAR1_MT-005:4C;004:3E
EAR2_MT-005:4B;004:3E
JACK_MIC+004:4B
MIC1_MT+005:4B;004:4D;004:4C
MIC2_MT+005:4B;004:4D;004:4C
JACK_BIAS004:4A
MICBIAS005:4A;004:2C;004:5C;004:9D
BIAS004:2C;004:5C;004:9D
C4031uF
0402
10V
X5R
MIC1_MT-005:4B;004:5D
MIC2_MT-005:4B;004:5D
RJ11_MIC+004:5B
MIC1_MT+005:4B;004:2D;004:4C
MIC2_MT+005:4B;004:2D;004:4C
RJ11_BIAS004:5B
MICBIAS005:4A;004:3D;004:5C;004:9D
BIAS004:3D;004:5C;004:9D
RJ11_MIC-004:5B
MIC1_MT-005:4B;004:2C
MIC2_MT-005:4B;004:2C
JACK_L004:5A
EAR1_MT+005:4C;004:5E
RJ11_EAR+004:2E;004:5B
EAR1_MT-005:4C;004:6E
RJ11_EAR-004:3E;004:5B
EAR2_MT+005:4B;004:5E
JACK_R004:5A
RJ11_EAR+004:2E;004:5B
EAR2_MT-005:4B;004:6E
RJ11_EAR-004:3E;004:5B
MICBIAS005:4A;004:2C;004:3D;004:9D
BIAS004:2C;004:3D;004:9D
MIC1_MT+005:4B;004:2D;004:4D
MIC2_MT+005:4B;004:2D;004:4D
MEMS_OUT004:6D
MEMS_PWR004:8C
MEMS_OUT004:4C
MEMS_PWR004:5C
C428
100nF
0402
16VX7R
C429 1uF
0402
10V X5R
U4011SPU0410HR5H
2
GND_2
1
VDD
3
GND_3
4 OUT
ESDA6V1BC6VS401
BS55
.
1
3 4
52
6
ESDA6V1BC6VS402
BS55
.
1
3 4
52
6
D402PESD12VS1UB@Mark
D403PESD12VS1UB
@Mark
L4086.8uH
7.4x6.7x3.0
C417100uF
CONT-D
16V
PL413B2B-PH-SM4-TB
3
2
1
4
1V8
PL402ASP-191029-01
3
21
4
5 6
PL403ASP-191029-01
3
21
4
5 6
PL407ASP-191029-01
3
21
4
5 6
PL406ASP-191029-01
3
21
4
5 6
PL404ASP-191029-01
3
21
4
5 6
PL405ASP-191029-01
3
21
4
5 6
PL408ASP-191029-01
3
21
4
5 6
PL409ASP-191029-01
3
21
4
5 6
PL414ASP-191029-01
3
21
4
5 6SPKR_P005:4C
SPKR_N005:4C
L409220
BLM21 L410220
BLM21
L4052250
BLM21
C43033pF
040250V
COG
C43133pF
0402
50VCOG
AUDIO
4 5
EARPIECE
AMPLIFIER CLASS-D
audio in selector
audio out selector
Telit EVB
MICBIAS
3.5mm jack4p
RJ11
out:stereo SE
in: mic SE
in: mic DIFF
out: mono DIFF
SHDN amp
MEMS
03/08/2016
FORBIDDEN
VIETATE
ALL RIGHTS RESERVED
RIPRODUZIONE E DIVULGAZIONE
REPRODUCTION AND DISCLOSURE
TUTTI I DIRITTI RISERVATI
PROJECT
A3
DESCRIPTION
DRAWING CODE
FORM
MODIFY
OF SHEETS
DATE
SHEET N.
VERIFIED
PROJECT
DRAWN
PATH /sedna/archive/sch
ANNOTATION
FILE NAME
B
C
D
E
A
42 98 1071 3 1165
SO506SEAF-20-01-L-06-2-RA-GP-K-TR
3
2
1
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
46
47
48
49
50
51
52
53
54
45
55
56
57
58
59
6061
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120GPS_LNA_BIAS005:4AVBAT_AUX
R50110K 5%
0402
NCP612SQ30T2GU501
LHTSC70-5
1VIN
3EN
4NC
5VOUT
2GND
C5011uF
0402
10VX5R
C5021uF
0402
10VX5R
GPS_BIAS_EN004:7D
USB_SS_TX_P002:6E
MICBIAS004:2C;004:3D;004:5C;004:9D
VMMC002:8A;002:8A
VBATT001:9A
USB_ID002:6E
VBATT_PA001:10A
MIC2_MT+004:2D;004:4D;004:4C
MIC1_MT-004:2C;004:5D
USB_VBUS001:1C;002:6E
USB_SS_RX_M002:6E
GPS_LNA_BIAS005:9A
MIC2_MT-004:2C;004:5D
VRTC001:11A
WCI_RX005:9B;005:11B
MIC1_MT+004:2D;004:4D;004:4C
GPS_LNA_EN004:7D
PCIE_EP_WAKE_N005:10D
WCI_TX005:11B
USB_SS_RX_P002:6E
HW_KEY001:6A
USB_SS_TX_M002:6E
eSIM_RST002:2D;002:2B
SO501SEAF-20-06.5-L-06-2-A-K-TR
3
2
1
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
46
47
48
49
50
51
52
53
54
45
55
56
57
58
59
60 61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
SO502SEAF-20-06.5-L-06-2-A-K-TR
3
2
1
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
46
47
48
49
50
51
52
53
54
45
55
56
57
58
59
60 61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
VREG_MSME
WIFI_SDCLK_TGPIO19005:3B;005:11B
WIFI_SDCMD_TGPIO14005:3C;005:11B
WIFI_SDRST_TGPIO13005:3C;005:11C
WCI_RX005:3B;005:9B
WIFI_SD4_TGPIO23005:3C;005:11B
WIFI_SD5_TGPIO24005:3C;005:11C
WIFI_SD6_TGPIO25005:3B;005:11C
WIFI_SD7_TGPIO26005:3B;005:11B
WIFI_SD0_TGPIO15005:3C;005:11C
WIFI_SD3_TGPIO18005:3C;005:11B
WIFI_SD1_TGPIO16005:3C;005:11C
WIFI_SD2_TGPIO17005:3C;005:11C
WLAN_SLEEP_CLK005:3B
RFCLK2_QCA005:3B
VBAT_AUX
VAUX/PWRMON001:7A;005:2D;005:8D
USB_EXT_D+002:7B
USB_EXT_D-002:7B
SPI_MISO005:2D;002:7C
SPI_CS005:2C;002:7C
SPI_CLK005:2D;002:7C
SPI_MOSI005:2C;002:7C
DVI_TX005:5D;002:8C
DVI_RX005:5D;002:8C
DVI_CLK005:5D;002:8C
DVI_WAO005:5D;002:8C
REF_CLK005:5D;002:8C
I2C_SCL_EXT003:2A
I2C_SDA_EXT003:2A
I2C_SDA_AUX005:2A;002:6D
I2C_SCL_AUX005:2A;002:6D
GPS_PPS005:7B
TGPIO_01005:2D;002:10D
TGPIO_04005:2C;002:8C;002:10D
TGPIO_02005:2C;002:7B;002:10D
TGPIO_03005:2D;002:10D
TGPIO_07005:2D;002:10D;002:11C
TGPIO_06005:2B;002:10D
TGPIO_08005:2D;002:10D
TGPIO_05005:2B;002:10D
TGPIO_10005:3D;002:8D
TGPIO_09005:2D;002:8D
TGPIO_11005:2C;002:7C;002:8D
TGPIO_12005:2C;002:7C;002:8D
TGPIO_21005:3D;002:8D
TGPIO_20005:3D;003:3D;002:8D
TGPIO_22005:3D;002:6D;002:8D
PCIE_EP_WAKE_N005:3B
PCIE_EP_RESET_N005:3C
PCIE_CLKREQ_N005:3C
JTAG_TCK002:2E
JTAG_TRST002:2D
JTAG_TMS002:2E
JTAG_TDI002:2E
JTAG_RTCK002:2E
JTAG_RESOUT002:1E
JTAG_TDO002:2E
WIFI_SD7_TGPIO26005:8E;005:11B
WIFI_SDCLK_TGPIO19005:8D;005:11B
WIFI_SD6_TGPIO25005:8D;005:11C
WIFI_SD2_TGPIO17005:8D;005:11C
WIFI_SD5_TGPIO24005:8D;005:11C
WIFI_SD3_TGPIO18005:8D;005:11B
WIFI_SD4_TGPIO23005:8D;005:11B
WIFI_SD1_TGPIO16005:8D;005:11C
WIFI_SDCMD_TGPIO14005:8D;005:11B
WIFI_SD0_TGPIO15005:8D;005:11C
WIFI_SDRST_TGPIO13005:8D;005:11C
C108/DTR003:7C
C103/TXD003:7C
C109/DCD003:6A
C106/CTS003:6A
C104/RXD003:6B
RX_AUX003:6D
STAT_LED003:5E
SHDN003:2E
ON_OFF003:2ERESET003:2E
SW_RDY003:4E
LED_DRV005:11B
GPS_RFPAON@xrefL
GPS_CLK@xrefL
GPS_PPS005:11A
I2C_SCL_AUX005:11C;002:6D
I2C_SDA_AUX005:11C;002:6D
TGPIO_06005:11D;002:10D
I2C_SDA001:6C;003:1A;002:6D
I2C_SCL001:6C;003:1A;002:6D
TGPIO_05005:11D;002:10D
TGPIO_12005:10D;002:7C;002:8D
SPI_CS005:10B;002:7C
SPI_MISO005:10B;002:7C
SPI_CLK005:10B;002:7C
SPI_MOSI005:10B;002:7C
TGPIO_04005:11D;002:8C;002:10D
TGPIO_11005:10D;002:7C;002:8D
TGPIO_02005:11D;002:7B;002:10D
TGPIO_03005:11D;002:10D
VAUX/PWRMON001:7A;005:8D;005:11B
LED_DRV_EN005:11B
TGPIO_08005:11D;002:10D
TGPIO_07005:11D;002:10D;002:11C
TGPIO_01005:11C;002:10D
TGPIO_09005:11D;002:8D
TGPIO_10005:10D;002:8D
TGPIO_21005:11D;002:8D
TGPIO_20005:11C;003:3D;002:8D
TGPIO_22005:11D;002:6D;002:8D
SIMVCC1002:4A;002:4B
SIMIO1002:2A
SIMCLK1002:2A
SIMRST1002:1B
SIMIN1002:1B
SIMVCC2002:2C
SIMIN2002:1D
SIMIO2002:2C
SIMRST2002:2C
SIMCLK2002:2C
DVI_RX005:10C;002:8C
DVI_CLK005:10C;002:8C
REF_CLK005:10C;002:8C
DVI_WAO005:10C;002:8C
DVI_TX005:10C;002:8C
D_MIC_CLK005:5E
D_MIC_DAT_1005:5E
ADC_IN2002:11C
ADC_IN3002:11C
ADC_IN1002:11C
EAR1_MT-004:3E;004:6E
EAR1_MT+004:2E;004:5E
EAR2_MT+004:2E;004:5E
EAR2_MT-004:3E;004:6E
MMC_DAT3002:8B
MMC_DAT1002:8B
MMC_CLK002:8B
MMC_DAT0002:8B
MMC_DAT2002:8B
MMC_CD002:8B
USB_D+002:7B
USB_D-002:7B
MMC_CMD002:8B
SGMII_RX_M005:10A
SGMII_RX_P005:10A
SGMII_TX_P005:10B
SGMII_RX_M005:2A
SGMII_RX_P005:2B
TRXP0005:1E
TRXN0005:1E
TRXP0005:4D
TRXN0005:4C
C5034.7pF
0402
50VCOG
C506
10nF
0603
50V
X7R
C505
10nF
0603
50V
X7R
R503
1K
5%
0603
R502
1K
5%
0603
C5044.7pF
0402
50VCOG
C507
100nF
0603
50V
X7R
C508
100nF
0603
50V
X7R
D501
SC-75
@Mark
ESDR0502BT1G
3
21
WCI_RX005:3B;005:11B
R50410K
5%0402
SW501
1437566-4
2 1
1V8
T501
ACT45B-101-2P
51 - 100 uH
2BAL_4
3
BAL_3
4
BAL_2
1BAL_1
PL501E5S21A-40MX5-A
3
2
1
4
5
6
MIC5366-1_8YC5U502
66GSC-70-5
1IN
3EN
4NC
5OUT
2GND
C5092.2uF
0402
10VX5R
VBAT_AUX
C51010uF
0603
10VX5R
R505
0 0
0402
1V8
VAUX/PWRMON001:7A;005:2D;005:11B
VREG_MSME
R509
0 0
0402
R5070
0
0402
1V8
MAC_TX_CLK005:10B
MAC_TXD[0]005:10A
MAC_TXD[1]005:10B
MAC_TXD[2]005:10B
MAC_TXD[3]005:10A
MAC_RXD[0]005:10B
MAC_RXD[1]005:10B
MAC_RXD[2]005:10C
MAC_RXD[3]005:10C
MAC_RX_CLK005:10B
MAC_CRS_DV005:10C
MAC_RXDV_ER005:10D
ETH_INT_N005:10D
ETH_RST_N005:10D
MAC_MDC005:10C
MAC_MDIO005:10D
MAC_REF_CLK005:10C
MAC_TXEN_ER005:10C
ETH_INT_N005:5C
ETH_RST_N005:5C
MAC_CRS_DV005:5B
MAC_RXDV_ER005:5B
MAC_MDC005:5B
MAC_MDIO005:5B
MAC_TXEN_ER005:5B
MAC_REF_CLK005:5B
MAC_RX_CLK005:5A
MAC_RXD[3]005:5A
MAC_RXD[2]005:5A
MAC_RXD[1]005:5A
MAC_RXD[0]005:5B
MAC_TXD[2]005:5A
MAC_TXD[3]005:5A
MAC_TXD[0]005:5B
MAC_TX_CLK005:5A
MAC_TXD[1]005:5B
R051000 0402
R051100 0402
LED_DRV_EN005:2D
LED_DRV005:7C
SGMII_TX_P005:2B
SGMII_TX_M005:2B
PCIE_TX_M005:10C
PCIE_TX_P005:10B
PCIE_REFCLK_P005:10C
TX_AUX003:6D
PCIE_CLKREQ_N005:10D
PCIE_EP_RESET_N005:10D
C105/RTS003:7C
D8_THERM_ASTAR003:8A
WLAN_SLEEP_CLK005:10C
RFCLK2_QCA005:11B
C125/RING003:6B
C107/DSR003:6A
DSI_D0_P005:7D
DSI_D0_N005:7D
DSI_D1_N005:6D
DSI_D1_P005:6D
DSI_D2_N005:6D
DSI_D2_P005:6D
DSI_D3_P005:6C
DSI_D3_N005:6C
PCIE_RX_M005:2C
PCIE_RX_P005:2B
PCIE_TX_M005:2C
PCIE_TX_P005:2C
PCIE_REFCLK_M005:2D
PCIE_REFCLK_P005:2C
WCI_TX005:3B
DSI_CLK_P005:6C
DSI_CLK_N005:6C
DSI_D2_P005:11B
DSI_D2_N005:11B
DSI_D3_P005:11A
DSI_D3_N005:11A
DSI_D1_P005:11B
DSI_D1_N005:11B
DSI_CLK_N005:11A
DSI_CLK_P005:11A
DSI_D0_N005:11C
DSI_D0_P005:11C
CSI2_D0_P005:10D
CSI2_CLK_N005:10D
CSI2_CLK_P005:10D
CSI1_D1_P005:3B
CSI1_D2_N005:3B
CSI1_D2_P005:3A
CSI1_D3_N005:3A
SO503SEAF-20-06.5-L-06-2-A-K-TR
3
2
1
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
46
47
48
49
50
51
52
53
54
45
55
56
57
58
59
60 61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
SGMII_TX_M005:10A
PCIE_RX_M005:10B
PCIE_RX_P005:10B
PCIE_REFCLK_M005:10C
CSI1_CLK_N005:11C
CSI1_CLK_P005:11C
CSI1_D0_N005:11D
CSI1_D1_N005:11D
CSI1_D1_P005:11D
CSI1_CLK_P005:3A
CSI1_CLK_N005:3A
CSI2_D0_N005:10D
CSI1_D0_P005:11D
CSI1_D2_N005:11D
CSI1_D2_P005:11D
CSI1_D3_P005:11C
CSI1_D3_N005:11C
CSI2_D0_N005:2D
CSI2_D0_P005:3D
CSI2_CLK_P005:3C
CSI2_CLK_N005:3D
CSI1_D1_N005:3B
CSI1_D0_N005:3C
CSI1_D0_P005:3C
CSI1_D3_P005:3A
TP510
TP509
TP503
TP505
TP508
TP511
TP502
TP504
TP501
TP507
TP506
WIFI_SD0_TGPIO15005:3C;005:8D
WIFI_SDRST_TGPIO13005:3C;005:8D
WIFI_SD1_TGPIO16005:3C;005:8D
WIFI_SD5_TGPIO24005:3C;005:8D
WIFI_SD2_TGPIO17005:3C;005:8D
WIFI_SD7_TGPIO26005:3B;005:8E
WIFI_SD3_TGPIO18005:3C;005:8D
WIFI_SDCLK_TGPIO19005:3B;005:8D
WIFI_SD4_TGPIO23005:3C;005:8D
WIFI_SDCMD_TGPIO14005:3C;005:8D
WIFI_SD6_TGPIO25005:3B;005:8D
R5121K5%0402
DZ501PESD5V0V1BLSOD882
DZ502PESD5V0V1BLSOD882
R5081M
5%
0402
JTAG_PS_HOLD002:1E
D_MIC_DAT_2005:5E
SPKR_P004:8C
SPKR_N004:7C
D_MIC_DAT_1005:4C
D_MIC_CLK005:4C TP512
TP513
MIC_VDD005:4C
TP514
TP515
D_MIC_DAT_2005:7A
MIC_VDD005:5E
TGPIO_30_CTS_GPS005:11B
TGPIO_28_RXD_GPS005:10D
TGPIO_29_RTS_GPS005:10D
TGPIO_27_TXD_GPS005:10C
U_FL-R-SMTSO507
1
23 DZ504
@Mark0402
EGA10402V05AH
HSIC_DATA005:5C
DZ505
@Mark0402
EGA10402V05AH
U_FL-R-SMTSO508
1
23
HSIC_STB005:5C
HSIC_DATA005:7E
HSIC_STB005:7E
TGPIO_28_RXD_GPS005:6D
TGPIO_27_TXD_GPS005:6D
TGPIO_29_RTS_GPS005:6D
TGPIO_30_CTS_GPS005:6D
R506
1K
5%
0402
DZ506PESD5V0V1BLSOD882
C512
1uF
0402
10VX5R
C51133pF
040250V
COG
55
B2B & EXT CONNECTORS
BOARD2BOARD EXTENSION
Telit EVB
EXT. GPS SIGNALS
EXT.LNA SUPPLY (GPS ANTENNA)
RClamp0582B.TCT
100 ohm diff
GPS BIAS
BROADR-reach ETH
FORCE EMERGENCY BOOT
WIFI TEST POINTS
DMIC TP
HSIC
03/08/2016
Communications S.p.A.
noMount=YES
noMount=YES
2 1
2
1
1
1 1
1
1
1
AA
1
1
11
1
1
1
1
15
610
1211
1
9 10
21
9 10
2 1
9 10
2 1
9 10
2 1
9 10
21
9 10
2
2
1
ON
11
1 2
19 20
1
1
2121
21 21
2121
21
21
1
21
AAAA
11
16
115
120
16
115120
1 6
115 120
FRONT EDGE OF PCB
16
115120
GPIO1 GPIO2
EXTENSION
R401
R402
R403
R407
R409
R218
R412
R220
U304
PL101
U305
PL103
U307
PL105
U309
PL106
PL107
PL10
8
U502
U310
C201
C202
C205
PL111
C206
PL112
PL113
PL114
PL115
PL116
C401
C402
C403
C210
C404
C211
C405
C406
C407
C408
C409
C410
C411
C413
C414
C415
TP501
TP502
TP503
C420
TP504
C421
TP505
TP506
C423
TP507
TP508
C425
TP509
C428
C429
TP510
TP511
C430
C431
Q101
D202
Q301Q302
L101
L301
L302
U4011
SO204
SO205
VS401
SO206
VS402
SO207 SO208 SO209
SO401
SO211
SW301 SW302SW303
SW304
SW305
SW501
R101
R102
R103
R104
R106
R109
R303
R304
R305
R306
R307
R308
R309
R118
R501
R119
R504
R310
R311
R505
R312
R506
R313
R507
R314
R508
R120
R315
R509
R121
R316R3
17
R318
OT101
OT102
OT103
R512
U201
U202
U203
R324
R325
U206
R326
U207
U209
U402
U210
C103
PL203
PL204
C106
C107
C301
PL401
PL402PL403
C110
C304
PL404
C111
C305
PL405
C306
PL406
C307
PL407
C308
PL408
C115
C309
PL409
C503
C504
C310
PL411
C311
C312
C313
C314
C315
C509
C316
C317
C123
C318
C319
C510
C320
C321
C322
C323
C324
C325
C326
D101
D102
D103
D104
Q202
D106
Q203
D107
DZ1
DZ2
DZ3
DZ4
D301
D302
D303
D304
Q401
D306 D307
L401
L402
L403
L404
L405
L406
L407
SO301
SO303
T501
SO501
SO502 SO503
DZ30
1
SO506
DZ308
DZ501
DZ502
R202
R205
R206
R207
R208
R209
R503 C505
R502C506
L409
PL414
C507
C508
D501
SO507
SO508
L410
DL101
C109
DL30
2
DL30
1
DZ504
DZ505
C125C126
U303
SO302
PL302SO203
SW306
U101
PL109PL110
C412
SO202
U204
C102 C104
C101
C105
PL206
U308
U306
PL102
PL201
PL202
R330
TP512
TP513
TP514
TP515
AA AA
1 2 3
1
2
3
AA
K
K
R210
R404
R211
R405
R212
R406
R213
R408
R214
R215
R216
R217
R410
R411
R413
R414
R221
R222
U103
R223
U104 U105
U301
U302
PL104
U501
PL301
U311
U312
C203
C204
PL501
C215
C216
C217
C218
C416
C417C418C419
C422
C424
C426
C427
D201
D203D204
Q303
D207
D208
D209
D401
L102
D402 D403
L103
D210
D211
L303
VS202R105
R107 R108
R301
R302
R110
R111
R112
R113
R114
R115
R116
R117
R319
OT104
OT105
OT106
R320
R321R322
U205
R327
U208
R328
R329
U401
C108
BT101
C302C303
C112
C113
C114
C116
C117
C118
C501
C119
C502
PL413
C120
C121
C122
C124
C327
C328
C329
C330
C331
RT101
D105
Q201
D305
L408
R0510
R0511
R201
R203
R204
R331
C511
C512
DZ506
D109
C220
C214
D108 SO201
U102
X301
SO101