Telit Communications S p A LE940B6NA LE940B6-NA User Manual

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LE940B6
Hardware User Guide
1VV0301331 Rev. 1.8 - 2017-03-15
LE940B6 Hardware User Guide
1VV0301331 Rev. 1.8 - 2017-03-15
This documentation applies to the following products:
Table 1: Applicability Table
Module Name
Description
LE940B6-NA AUTO
North America regional variant (AT&T and T-Mobile)
LE940B6-NV AUTO
North America region variant (Verizon, AT&T and T-Mobile)
LE940B6-RW AUTO
Rest of World variant (Europe, APAC, Latin America and more)
LE940B6-CN AUTO
China variant
Note: NV variant - to be developed
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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 the 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 any 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 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
Telit and third-party software (SW) products described in this instruction manual may include
copyrighted Telit and other third-party computer programs stored in semiconductor memories or
other media. Laws in Italy and other countries preserve for Telit and other third-party 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 third-party 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 third-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 thirdparty 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
an 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 faulttolerant 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 trademarks and/or registered trademarks of Telit Communications
S.p.A. in the Unites States and/or other countries. All other product or service names are the
property of their respective owners.
Copyright © 2016 Telit Communications S.p.A.
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Contents
1.
Introduction ..................................................................................................... 12
1.1. Scope ................................................................................................................ 12
1.2. Audience .......................................................................................................... 12
1.3. Contact Information, Support.......................................................................... 12
1.4. Text Conventions ............................................................................................. 13
1.5. Related Documents.......................................................................................... 14
1.6. Abbreviations ................................................................................................... 14
1.7. Document Organization ................................................................................... 15
2.
General Product Description ............................................................................ 17
2.1. Overview .......................................................................................................... 17
2.2. Applications ..................................................................................................... 17
2.3. General Functionality and Main Features ....................................................... 18
2.4. Environmental Requirements .......................................................................... 19
2.4.1. Temperature Range .............................................................................. 19
2.4.2. RoHS Compliance.................................................................................. 19
2.5. Operating Frequency Bands............................................................................. 20
2.5.1. RF Bands per Regional Variant ............................................................. 20
2.5.2. Reference Table of RF Bands Characteristics ....................................... 21
2.6. Sensitivity ......................................................................................................... 24
2.7. LE940B6 Mechanical Specifications ................................................................. 25
2.7.1. Dimensions ........................................................................................... 25
2.7.2. Weight .................................................................................................. 25
3.
LE940B6 Module Connections .......................................................................... 26
3.1. Pin-out.............................................................................................................. 26
3.2. LE940B6 Signals That Must Be Connected ...................................................... 36
3.3. LGA Pads Layout............................................................................................... 38
4.
Electrical Specifications .................................................................................... 39
4.1. Absolute Maximum Ratings – Not Operational ............................................... 39
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4.2. Recommended Operating Conditions ............................................................. 39
4.3. Logic Level Specifications................................................................................. 40
4.3.1. 1.8V Standard GPIOs ............................................................................ 40
4.3.2. 1.8V I2C Pads ........................................................................................ 41
4.3.3. 1.2V EMIC Pads ..................................................................................... 41
4.3.4. 1.8V/2.9V SIM Pads .............................................................................. 42
4.3.5. USB........................................................................................................ 42
4.3.6. 2.5V/3.3V EMAC Interface for RMII and RGMII ................................... 43
5.
Hardware Commands....................................................................................... 44
5.1. Turning on the LE940B6 Module ..................................................................... 44
5.2. Initialization and Activation State .................................................................... 44
5.3. Turning off the LE940B6 Module ..................................................................... 48
5.3.1. Shutdown by Software Command ....................................................... 48
5.3.2. Hardware Shutdown............................................................................. 50
5.3.3. Unconditional Hardware Reset (RESET_N)........................................... 51
5.3.4. Unconditional Hardware Shutdown ..................................................... 52
6.
Power Supply ................................................................................................... 54
6.1. Power Supply Requirements............................................................................ 54
6.2. General Design Rules ....................................................................................... 57
6.2.1. Electrical Design Guidelines.................................................................. 57
6.2.1.1. + 5V Input Source Power Supply – Design Guidelines ......... 57
6.2.1.2. + 12V Input Source Power Supply – Design Guidelines ....... 58
6.2.1.3. Battery Source Power Supply – Design Guidelines .............. 60
6.2.2. Thermal Design Guidelines ................................................................... 61
6.2.3. Power Supply PCB Layout Guidelines ................................................... 61
7.
Antenna(s) ....................................................................................................... 63
7.1. GSM/WCDMA/TD-SCDMA/LTE Antenna Requirements ................................. 63
7.2. GSM/WCDMA/TD-SCDMA/LTE Antenna – PCB Line Guidelines ..................... 63
7.3. GSM/WCDMA/TD-SCDMA/LTE Antenna – Installation Guidelines ................. 65
7.4. Secondary Antenna Requirements .................................................................. 65
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7.5. PCB Guidelines in case of FCC certification ..................................................... 65
7.5.1. Transmission line design....................................................................... 65
7.5.2. Transmission line measurements ......................................................... 66
8.
Hardware Interfaces......................................................................................... 69
8.1. USB Port ........................................................................................................... 70
8.2. Serial Ports ....................................................................................................... 71
8.2.1. Modem Serial Port 1 ............................................................................. 72
8.2.2. Modem Serial Port 2 ............................................................................. 73
8.2.3. Modem Serial Port 3 ............................................................................. 73
8.2.4. RS232 Level Translation........................................................................ 74
8.3. Peripheral Ports ............................................................................................... 76
8.3.1. SPI – Serial Peripheral Interface ........................................................... 76
8.3.2. I2C - Inter-integrated Circuit ................................................................ 77
8.4. Ethernet Interface ............................................................................................ 77
8.5. Audio Interface ................................................................................................ 78
8.5.1. Analog Audio ........................................................................................ 78
8.5.2. Digital Audio ......................................................................................... 79
8.6. General Purpose I/O ........................................................................................ 79
8.6.1. Using a GPIO Pad as Input .................................................................... 80
8.6.2. Using a GPIO Pad as Output ................................................................. 80
9.
Miscellaneous Functions .................................................................................. 82
9.1. Indication of Network Service Availability ....................................................... 82
9.2. RTC – Real Time Clock ...................................................................................... 83
9.3. VAUX Power Output ........................................................................................ 83
9.4. ADC Converter ................................................................................................. 83
9.4.1. Description............................................................................................ 83
9.4.2. Using the ADC Converter ...................................................................... 83
9.5. Using the Temperature Monitor Function ...................................................... 84
9.6. Fuel Gauge (TBD) ............................................................................................. 84
9.7. eFuse ................................................................................................................ 84
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10.
Mounting the Module on your Board ............................................................... 85
10.1. General............................................................................................................. 85
10.2. Finishing & Dimensions.................................................................................... 85
10.3. Recommended Footprint for the Application ................................................. 86
10.4. Stencil ............................................................................................................... 87
10.5. PCB Pad Design ................................................................................................ 87
10.6. Recommendations for PCB Pad Dimensions (mm).......................................... 88
10.7. Solder Paste ..................................................................................................... 89
10.7.1. Solder Reflow........................................................................................ 89
11.
Application Guide ............................................................................................ 91
11.1. Debug of the LE940B6 Module in Production ................................................. 91
11.2. Bypass Capacitor on Power Supplies ............................................................... 92
11.3. SIM Interface.................................................................................................... 93
11.3.1. SIM Schematic Example........................................................................ 93
11.4. EMC Recommendations................................................................................... 94
11.5. Download and Debug Port............................................................................... 94
11.6. Antenna Detection ........................................................................................... 95
12.
Packing System ................................................................................................ 96
12.1. Tray Drawing .................................................................................................... 98
12.2. Moisture Sensitivity ......................................................................................... 98
13.
Conformity Assessment Issues ......................................................................... 99
13.1. FCC/IC Regulatory Notices ............................................................................... 99
14.
Safety Recommendations................................................................................101
15.
Document History ...........................................................................................102
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List of Tables
Table 1: Applicability Table................................................................................................................. 2
Table 2: Related Documents ............................................................................................................ 14
Table 3: Document Structure ........................................................................................................... 15
Table 4: RF Bands per Regional Variant............................................................................................ 20
Table 5: RF Bands Characteristics ..................................................................................................... 21
Table 6: LE940B6 Pin-out .................................................................................................................. 26
Table 7: Mandatory Signals .............................................................................................................. 36
Table 8: Absolute Maximum Ratings – Not Operational .................................................................. 39
Table 9: Recommended Operating Conditions ................................................................................ 39
Table 10: Absolute Maximum Ratings – Not Functional .................................................................. 40
Table 11: Operating Range – Interface Levels (1.8V CMOS) ............................................................ 40
Table 12: Operating Range – 1.8V I2C Pads ..................................................................................... 41
Table 13: Operating Range – 1.2V EMIC Pads .................................................................................. 41
Table 14: Operating Range – 1.8V SIM Pads .................................................................................... 42
Table 15: Operating Range – 2.9V SIM Pads .................................................................................... 42
Table 16: Operating Range – USB_D+, USB_D- Pads ........................................................................ 42
Table 17: Absolute Maximum Ratings – 3.3V EMAC Interface......................................................... 43
Table 18: Operating Range – 2.5V EMAC Interface .......................................................................... 43
Table 19: Operating Range – 3.3V EMAC Interface .......................................................................... 43
Table 20: Power Supply Requirements ............................................................................................ 54
Table 21: LE940B6 Current Consumption ........................................................................................ 54
Table 22: Primary Antenna Requirements ...................................................................................... 63
Table 23: Antenna Line on PCB Requirements ................................................................................. 64
Table 24: LE940B6 Hardware Interfaces .......................................................................................... 69
Table 25: USB Interface Signals ........................................................................................................ 70
Table 26: Modem Serial Port 1 Signals ............................................................................................. 72
Table 27: Modem Serial Port 2 Signals ............................................................................................. 73
Table 28: Modem Serial Port 3 Signals ............................................................................................. 73
Table 29: SPI Signals ......................................................................................................................... 76
Table 30: Ethernet Interface............................................................................................................. 77
Table 31: Analog Audio Signals ......................................................................................................... 78
Table 32: Digital Audio Interface (DVI) Signals ................................................................................. 79
Table 33: GPIOs ................................................................................................................................ 79
Table 34: Network Service Availability Indication ............................................................................ 82
Table 35: Operating Range – VAUX Power Supply ........................................................................... 83
Table 36: ADC Parameters ................................................................................................................ 83
Table 37: Recommendations for PCB Pad Surfaces ......................................................................... 88
Table 38: Solder Profile Characteristics ............................................................................................ 90
Table 39: SIM Interface – C1 Range.................................................................................................. 93
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Table 40: EMC Recommendations ................................................................................................... 94
Table 41: Tray Packing ...................................................................................................................... 96
Table 42: Packing Quantities ............................................................................................................ 96
Table 43: Document Revision History ............................................................................................ 102
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List of Figures
Figure 1: LE940B6 High-level Functionality ...................................................................................... 18
Figure 2: LGA Pads Layout LE940B6 334 Pads Top View .................................................................. 38
Figure 3: Power-on Circuit ................................................................................................................ 44
Figure 4: LE940B6 Initialization and Activation ................................................................................ 45
Figure 5: Power-up Flow Chart ......................................................................................................... 46
Figure 6: AT Command Managing Flow Chart .................................................................................. 47
Figure 7: Shutdown by Software Command..................................................................................... 49
Figure 8: Hardware Shutdown.......................................................................................................... 50
Figure 9: Circuit for Unconditional Hardware Reset ........................................................................ 51
Figure 10: Circuit for Unconditional Hardware Shutdown ............................................................... 52
Figure 11: Turn Off Procedure .......................................................................................................... 53
Figure 12: Example of Linear Regulator with 5V Input ..................................................................... 58
Figure 13: Example of Switching Regulator with 12V Input – Part 1................................................ 59
Figure 14: Example of Switching Regulator with 12V Input – Part 2................................................ 59
Figure 15: ESD Protection for USB2.0 ............................................................................................... 71
Figure 16: RS232 Level Adaption Circuitry Example ......................................................................... 75
Figure 17: RS232 Serial Port Lines Connection Layout ..................................................................... 75
Figure 18: SPI Signal Connectivity..................................................................................................... 76
Figure 19: GPIO Output Pad Equivalent Circuit ................................................................................ 81
Figure 20: Status LED circuit example .............................................................................................. 82
Figure 21: Fuel Gauge Connectivity Example ................................................................................... 84
Figure 22: Application Module Top View ......................................................................................... 86
Figure 23: PCB Pad Design ................................................................................................................ 87
Figure 24: PCB Pad Dimensions ........................................................................................................ 88
Figure 25: Inhibit Area for Micro-via ................................................................................................ 88
Figure 26: Solder Reflow Profile ....................................................................................................... 89
Figure 27: SIM Schematics ................................................................................................................ 93
Figure 28: Tray Packing ..................................................................................................................... 97
Figure 29: Tray Drawing.................................................................................................................... 98
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1.
Introduction
1.1.
Scope
This document introduces the Telit LE940B6 module and presents possible and recommended
hardware solutions for developing a product based on the LE940B6 module. All the features and
solutions detailed in this document are applicable to all LE940B6 variants, where “LE940B6”
refers to the variants listed in the applicability table.
If a specific feature is applicable to a specific product only, it will be clearly marked.
NOTE:
LE940B6 refers to all modules listed in the Applicability Table.
This document takes into account all the basic functions of a wireless module; suggests a valid
hardware solution for each function, and points out incorrect solutions and common errors to be
avoided.
Obviously, this document cannot embrace every hardware solution or every product that can be
designed. Obviously, avoiding invalid solutions must be considered mandatory. Where the
suggested hardware configurations need not be considered mandatory, the information given
should be used as a guide and a starting point for properly developing your product with the Telit
LE940B6 module.
NOTE:
The integration of the GSM/GPRS/EGPRS/WCDMA/HSPA+/LTE LE940B6 cellular module within a
user application must be done according to the design rules described in this manual.
1.2.
Audience
This document is intended for Telit customers, especially system integrators, about to implement
their applications using the Telit LE940B6 module.
1.3.
Contact Information, Support
For general contact, technical support, to report documentation errors and to order manuals,
contact Telit’s Technical Support Center (TTSC) at:
•
TS-EMEA@telit.com
•
TS-NORTHAMERICA@telit.com
•
TS-LATINAMERICA@telit.com
•
TS-APAC@telit.com
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Alternatively, use:
http://www.telit.com/en/products/technical-support-center/contact.php
For detailed information about where you can buy the Telit modules or for recommendations on
accessories and components, visit:
http://www.telit.com
To register for product news and announcements or for product questions contact Telit’s
Technical Support Center (TTSC).
Our aim is to make this guide as helpful as possible. Keep us informed of your comments and
suggestions for improvements.
Telit appreciates feedback from the users about the information provided.
1.4.
Text Conventions
The following conventions are used to emphasize specific types of information:
Danger:
This information MUST be followed or catastrophic equipment failure or bodily injury may
occur.
Caution or Warning:
Alerts the user to important points about integrating the module. If these points are not
followed, the module and end user equipment may fail or malfunction.
NOTE:
Tip or Information – Provides advice and suggestions that may be useful when integrating the
module.
All dates are in ISO 8601 format, that is, YYYY-MM-DD.
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1.5.
Related Documents
Table 2: Related Documents
Document Title
1.6.
Document Number
Ref 1: LE940B6 AT Command Reference Guide
80514ST10767A
Ref 2: LE940B6 SW User Guide
1VV0301296
Ref 3: Telit EVK2 User Guide
1vv0300704
Ref 4: SIM Integration Design Guide
80000NT10001A
Abbreviations
Table 3: Table of Abbreviations
Term
Definition
ADC
Analog-to-digital converter
AE
Application-enabled
DAC
Digital-to-analog converter
FDD
Frequency division duplex
GLONASS
Global orbiting navigation satellite system
GNSS
Global navigation satellite system
GPIO
General-purpose input/output
GPRS
General packet radio services
GPS
Global positioning system
GSM
Global system for mobile communications
I2C
Inter-integrated circuit
LTE
Long term evolution
SD
Secure digital
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Term
1.7.
Definition
RGMII
Reduced Gigabit media-independent interface
SIM
Subscriber identity module
SOC
System-on-Chip
SMX
SmartMX
SPI
Serial peripheral interface
UART
Universal asynchronous receiver transmitter
UMTS
Universal mobile telecommunications system
USB
Universal serial bus
WCI
Wireless Coexistence Interface
WCDMA
Wideband code division multiple access
Document Organization
This document contains the following chapters:
Table 3: Document Structure
Chapter#
Chapter Title
Description
Introduction
Provides the scope of this document, target
audience, contact and support information, and text
conventions
General Product Description
An overview of the product features
LE940B6 Module
Connections
Pinout configuration and layout
Electrical Specifications
Specifies electrical values of logic levels for this
module
Hardware Commands
Instructs how to control the module via hardware
Power Supply
Supply lines and current consumption
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Chapter#
Chapter Title
Description
Antenna(s)
Describes the antenna connections and related
aspects of board layout design, which are most
critical for the overall product design
Hardware Interfaces
Specifies the peripheral and audio interfaces
Miscellaneous Functions
10
Mounting the Module on
your Board
11
Application Guide
12
Packing System
13
Conformity Assessment
Issues
14
Safety Recommendations
15
Document History
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2.
General Product Description
2.1.
Overview
LE940B6 is Telit’s platform for automotive telematics on-board units (OBU's) for applications,
such as automotive telematics and eCall, based on the following technologies:
•
4G cellular for voice and data communication
•
GNSS (optional) - GPS, GLONASS, BeiDou, Galileo, QZSS, for positioning service
•
Embedded security
•
Designed for automotive markets1 quality needs
In its most basic use case, LE940B6 can be applied as a wireless communication front-end for
telematics products, offering GNSS and mobile communication features to an external host CPU
through its rich interfaces.
LE940B6 can further support customer software applications and security features. LE940B6 is
based on a Yocto Linux system running on an application processor. Thanks to a dedicated
application processor and embedded security resources, product developers and manufacturers
can create products that guarantee fraud prevention and tamper evidence without extra effort
for additional security precautions.
LE940B6 can be self-sufficient and serve as a fully integrated solution for applications, such as
location-based cellular telematics, navigation, road pricing and eCall. In such a case, the customer
would simply complement the module with a power supply, speaker amplifier, microphone,
antennas, and an HMI (if applicable).
LE940B6 is offered with different regional variants according to the list in Table 1: Applicability
Table.
2.2.
Applications
LE940B6 can be used for telematics applications where tamper-resistance, confidentiality,
integrity, and authenticity of end-user information are required, for example:
•
Emergency call
•
Telematics services
•
Road pricing
•
Pay-as-you-drive insurance
•
Stolen vehicles tracking
•
Internet connectivity
In accordance with Telit’s Robustness Validation, using AEC-Q100-defined qualification tests
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2.3.
General Functionality and Main Features
The LE940B6 family of automotive cellular modules features an LTE and multi-RAT modem
together with a powerful on-chip application processor and a rich set of interfaces.
The major functions and features are listed below:
•
Multi-RAT with LTE carrier aggregation (Rel. 10, Cat. 6)
•
Flash + DDR large enough to allow the space for customer’s own software applications
•
Advanced security features
•
FOTA (optional)
•
Several region variants with optimal choice of RF bands in each for worldwide coverage of
countries and MNOs
•
Well-designed form factor (40x40mm), accommodating the multiple RF bands in each region
variant
•
Digital audio and analog audio codec
•
A GNSS function is not included within the module, but can be supported with the proper
interface while mounted on the customer board
•
The entire module is designed by Telit for satisfying the environment and quality
requirements of the automotive market
Figure 1 shows the high-level functionality of the LE940B6 module.
Figure 1: LE940B6 High-level Functionality
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2.4.
Environmental Requirements
2.4.1.
Temperature Range
Operating
temperature range
-20 ~ +55°C.
This range is defined by 3GPP (the global standard for wireless
mobile communication). Telit guarantees its modules to comply with
all the 3GPP requirements and to have full functionality of the
module with in this range.
-40 ~ +85°C.
Telit guarantees full functionality within this range as well. However,
there may possibly be some performance deviations in this
extended range relative to 3GPP requirements, which means that
some RF parameters may deviate from the 3GPP specification in the
order of a few dB. For example: receiver sensitivity or maximum
output power may be slightly degraded.
Even so, all the functionalities, such as call connection, SMS, USB
communication, UART activation etc., will be maintained, and the
effect of such degradations will not lead to malfunction.
–40°C ~ +95°C.
eCall must be functional (until the module is broken)
Storage and nonoperating
temperature range
2.4.2.
–40°C ~ +95°C
RoHS Compliance
As a part of the Telit corporate policy of environmental protection, the LE940B6 complies with the
RoHS (Restriction of Hazardous Substances) directive of the European Union (EU directive
2011/65/EU).
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LE940B6 Hardware User Guide
1VV0301331 Rev. 1.8 - 2017-03-15
2.5.
Operating Frequency Bands
The operating frequencies in WCDMA and LTE modes conform to the 3GPP specifications.
2.5.1.
RF Bands per Regional Variant
Table 4 summarizes all region variants within the LE940B6 family, showing the supported band
sets in each variant and the supported band pairs for 2x carrier aggregation.
Table 4: RF Bands per Regional Variant
Region
Variant
LE940B6-NA
LE940B6-NV
LE940B6-RW
LE940B6-CN
LTE FDD
LTE TDD
HSPA+
2, 4, 5
TDSCDMA
2G
2, 4, 5, 7, 12, 29(DL)
LTE Carrier Aggregation
2+5, 2+12, 2+29, 4+4, 4+5, 4+12, 4+29
2, 4, 5, 7, 12, 13, 29(DL)
LTE Carrier Aggregation
2+5, 2+12, 2+13, 2+29, 4+4, 4+5, 4+12, 4+13, 4+29,
1, 2, 3, 4, 5, 7, 8, 19, 20,
21, 26, 28, 32(DL)
LTE Carrier Aggregation
1+5, 1+8, 1+19, 1+21, 1+26, 3+3, 3+5, 3+7, 3+19, 3+20,
3+26, 3+28, 4+4, 7+20, 7+28, 19+21, 20+32
1, 3, 5, 8, 26
38, 39, 40, 41M
LTE Carrier Aggregation
1+26, 3+3, 3+5, 3+26, 39+41, 40+40, 41+41
2, 4, 5
1, 2, 3, 4, 5, 8, 19
1, 3, 5, 8
2, 5
2, 5
34, 39
2, 3, 5, 8
3, 8
Band 41M for China: 2,555 - 2,655 MHz
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LE940B6 Hardware User Guide
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2.5.2.
Reference Table of RF Bands Characteristics
Table 5: RF Bands Characteristics
Mode
Freq. Tx (MHz)
Freq. Rx (MHz)
Channels
Tx-Rx Offset
PCS 1900
1850.2 ~ 1909.8
1930.2 ~ 1989.8
512 ~ 810
80 MHz
DCS 1800
1710.2 ~ 1784.8
1805.2 ~ 1879.8
512 ~ 885
95 MHz
GSM 850
824.2 ~ 848.8
869.2 ~ 893.8
128 ~ 251
45 MHz
EGSM 900
880.2 ~ 914.8
925.2 ~ 959.8
975 ~ 1023, 1 ~ 124
45 MHz
WCDMA 2100 – B1
1920 ~ 1980
2110 ~ 2170
Tx: 9612 ~ 9888
190 MHz
Rx: 10562 ~ 10838
WCDMA 1900 – B2
1850 ~ 1910
1930 ~ 1990
Tx: 9262 ~ 9538
80 MHz
Rx: 9662 ~ 9938
WCDMA 1800 – B3
1710 ~ 1785
1805 ~ 1880
Tx: 937 ~ 1288
95 MHz
Rx: 1162 ~ 1513
WCDMA AWS – B4
1710 ~ 1755
2110 ~ 2155
Tx: 1312 ~ 1513
400 MHz
Rx: 1537 ~ 1738
WCDMA 850 – B5
824 ~ 849
869 ~ 894
Tx: 4132 ~ 4233
45 MHz
Rx: 4357 ~ 4458
WCDMA 900 – B8
880 ~ 915
925 ~ 960
Tx: 2712 ~ 2863
45 MHz
Rx: 2937 ~ 3088
WCDMA 1800 –B9
1750 ~ 1784.8
1845 ~ 1879.8
Tx: 8762 ~ 8912
95 MHz
Rx: 9237 ~ 9387
WCDMA 800 – B19
830 ~ 845
875 ~ 890
Tx: 312 ~ 363
45 MHz
Rx: 712 ~ 763
TDSCDMA 2000 –
B34
2010 ~ 2025
2010 ~ 2025
Tx: 10050 ~ 10125
0 MHz
Rx: 10050 ~ 10125
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LE940B6 Hardware User Guide
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Mode
Freq. Tx (MHz)
TDSCDMA 1900 –
B39
1880 ~ 1920
LTE 2100 – B1
1920 ~ 1980
Freq. Rx (MHz)
1880 ~ 1920
Channels
Tx: 9400 ~ 9600
Tx-Rx Offset
0 MHz
Rx: 9400 ~ 9600
2110 ~ 2170
Tx: 18000 ~ 18599
190 MHz
Rx: 0 ~ 599
LTE 1900 – B2
1850 ~ 1910
1930 ~ 1990
Tx: 18600 ~ 19199
80 MHz
Rx: 600 ~ 1199
LTE 1800 – B3
1710 ~ 1785
1805 ~ 1880
Tx: 19200 ~ 19949
95 MHz
Rx: 1200 ~ 1949
LTE AWS – B4
1710 ~ 1755
2110 ~ 2155
Tx: 19950 ~ 20399
400 MHz
Rx: 1950 ~ 2399
LTE 850 – B5
824 ~ 849
869 ~ 894
Tx: 20400 ~ 20649
45 MHz
Rx: 2400 ~ 2649
LTE 2600 – B7
2500 ~ 2570
2620 ~ 2690
Tx: 20750 ~ 21449
120 MHz
Rx: 2750 ~ 3449
LTE 900 – B8
880 ~ 915
925 ~ 960
Tx: 21450 ~ 21799
45 MHz
Rx: 3450 ~ 3799
LTE 1800 – B9
1749.9 ~ 1784.9
1844.9 ~ 1879.9
Tx: 21800 ~ 2149
95 MHz
Rx: 3800 ~ 4149
LTE AWS+ – B10
1710 ~ 1770
2110 ~ 2170
Tx: 22150 ~ 22749
400 MHz
Rx: 4150 ~ 4749
LTE 700a – B12
699 ~ 716
729 ~ 746
Tx : 23010 ~ 23179
30 MHz
Rx : 5010 ~ 5179
LTE 700c – B13
777 ~ 787
746 ~ 756
Tx : 23180 ~ 23279
-31 MHz
Rx : 5180 ~ 5279
LTE 700b – B17
704 ~ 716
734 ~ 746
Tx: 23730 ~ 23849
30 MHz
Rx: 5730 ~ 5849
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LE940B6 Hardware User Guide
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Mode
LTE 800 – B19
Freq. Tx (MHz)
830 ~ 845
Freq. Rx (MHz)
875 ~ 890
Channels
Tx: 24000 ~ 24149
Tx-Rx Offset
45 MHz
Rx: 6000 ~ 6149
LTE 800 – B20
832 ~ 862
791 ~ 821
Tx: 24150 ~ 24449
-41 MHz
Rx: 6150 ~ 6449
LTE 1500 – B21
1447.9 ~ 1462.9
1495.9 ~ 1510.9
Tx: 24450 ~ 24599
48 MHz
Rx: 6450 ~ 6599
LTE 850+ – B26
814 ~ 849
859 ~ 894
Tx: 26690 ~ 27039
45 MHz
Rx: 8690 ~ 9039
LTE 700 – B28
703 ~ 748
758 ~ 803
Tx : 27210 ~ 27659
45 MHz
Rx : 9210 ~ 9659
LTE 700d – B29
Downlink only
717 ~ 728
Rx: 9660 ~ 9769
0 MHz
LTE 1500 – B32
Downlink only
1452 ~ 1496
Rx: 9920 ~ 10359
0 MHz
LTE TDD 2600 – B38
2570 ~ 2620
2570 ~ 2620
Tx: 37750 ~ 38249
0 MHz
Rx: 37750 ~ 38249
LTE TDD 1900 – B39
1880 ~ 1920
1880 ~ 1920
Tx: 38250 ~ 38649
0 MHz
Rx: 38250 ~ 38649
LTE TDD 2300 – B40
2300 ~ 2400
2300 ~ 2400
Tx: 38650 ~ 39649
0 MHz
Rx: 38650 ~ 39649
LTE TDD 2500 – B41
2496 ~ 2690
2496 ~ 2690
Tx: 39650 ~ 41589
0 MHz
Rx: 39650 ~ 41589
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LE940B6 Hardware User Guide
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2.6.
Sensitivity
LE940B6 maximum sensitivity levels are as follows (exact performance figures will be specified at
a later stage):
•
< 3GPP @ 2G
•
< 3GPP @ 3G
•
< 3GPP @ 4G FDD (BW=5 MHz)
•
< 3GPP @ 4G TDD (BW=5 MHz)
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LE940B6 Hardware User Guide
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2.7.
LE940B6 Mechanical Specifications
2.7.1.
Dimensions
The LE940B6 module’s overall dimensions are:
2.7.2.
•
Length:
40 mm, +/- 0.20 mm tolerance
•
Width:
40 mm, +/- 0.20 mm tolerance
•
Thickness: 3.0 mm, +/- 0.15 mm tolerance (with label)
Weight
The nominal weight of the LE940B6 module is 11 gram.
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LE940B6 Hardware User Guide
1VV0301331 Rev. 1.8 - 2017-03-15
3.
LE940B6 Module Connections
3.1.
Pin-out
Table 6: LE940B6 Pin-out
PAD
Signal
A18
USB_VBUS
D19
F19
USB_D+
USB_D-
AH19
AF19
C103/TXD
C104/RXD
AA18
C105/RTS
AK19
C106/CTS
AG18
C107/DSR
AC18
C108/DTR
AE18
C109/DCD
AJ18
C125/RING
AB19
AD19
TXD_AUX
RXD_AUX
AM9
AM11
UART3_TXD
UART3_RXD
AM13
UART3_RTS
AM15
UART3_CTS
E4
F3
F5
G2
JTAG_TDI
JTAG_RESOUT_N
JTAG_TRIGOUT
JTAG_RTCK
I/O
Function
USB HS 2.0 Communication Port
Power sense for the internal USB
AI
transceiver
I/O USB differential Data (+)
I/O USB differential Data (-)
Asynchronous UART
Serial data input (TXD) from DTE
O Serial data output (RXD) to DTE
Input for Request To Send signal
(RTS) from DTE
Output for Clear To Send signal
(CTS) to DTE
Output for Data Set Ready signal
(DSR) to DTE
Input for Data Terminal Ready
signal (DTR) from DTE
Output for Data Carrier Detect
signal (DCD) to DTE
Output for Ring Indicator signal (RI)
to DTE
Asynchronous Auxiliary UART
O Auxiliary UART (Tx Data to DTE)
Auxiliary UART (Rx Data from DTE)
Asynchronous UART3
Serial data input (TXD) from DTE
O Serial data output (RXD) to DTE
Input for Request To Send (RTS)
from DTE
Output for Clear To Send (CTS) to
DTE
JTAG – Joint Test Action Group
JTAG_TDI
O JTAG_RESOUT*
JTAG_TRIGOUT
O JTAG_RTCK
Type
COMMENT
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
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LE940B6 Hardware User Guide
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H3
J2
K3
L2
M3
JTAG_TCK
JTAG_TRST_N
JTAG_TDO
JTAG_TMS
JTAG_TRIGIN
L4
N4
R4
T4
V4
JTAG_PTI_CLK
JTAG_PTI_DATA0
JTAG_PTI_DATA1
JTAG_PTI_DATA2
JTAG_PTI_DATA3
A8
SIMVCC1
A10
B7
B9
B11
SIMCLK1
SIMIN1
SIMIO1
SIMRST1
D15
SIMVCC2
C16
SIMCLK2
C18
SIMIN2
E16
D17
SIMIO2
SIMRST2
B5
A4
B3
A2
G6
EAR1_MT+
EAR1_MTMIC1_MT+
MIC1_MTMIC_BIAS
C8
DVI_RX
C10
DVI_CLK
D9
DVI_TX
D11
DVI_WA0
K19
M19
SPI_MOSI
SPI_MISO
JTAG_TCK
JTAG_TRST*
JTAG_TDO
JTAG_TMS
JTAG_TRIGIN
JTAG - MiPi 34 Interface
O MiPi Clock
I/O MiPi Data 0
I/O MiPi Data 1
I/O MiPi Data 2
I/O MiPi Data 3
SIM Card Interface
External SIM signal – Power supply
for the SIM
O External SIM signal – Clock
External SIM signal – Presence
I/O External SIM signal – Data I/O
O External SIM signal – Reset
SIM Card Interface 2
External SIM signal – Power supply
for the SIM
O External SIM signal – Clock
External SIM signal – Presence
(active low)
I/O External SIM signal – Data I/O
O External SIM signal – Reset
Analog Audio Interface
AO Earphone signal output, phase +
AO Earphone signal output, phase AI Microphone input, phase +
AI Microphone input, phase AO Microphone Bias
Digital Voice Interface (DVI)
Digital Voice interface (Rx)
Digital Voice interface (CLK master
output)
O Digital Voice interface (Tx)
Digital Voice interface (WA0 master
output)
SPI – Serial Peripheral Interface
O SPI data Master output Slave input
SPI data Master input Slave output
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8/2.9V
1.8/2.9V
1.8V
1.8/2.9V
1.8/2.9V
Active Low
1.8/2.9V
1.8/2.9V
1.8V
Active Low
1.8/2.9V
1.8/2.9V
Power
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
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LE940B6 Hardware User Guide
1VV0301331 Rev. 1.8 - 2017-03-15
N18
P19
SPI_CS
SPI_CLK
C14
D13
I2C_SCL
I2C_SDA
I/O
I/O
F9
E10
F11
E12
F13
E14
R18
S19
U19
W19
L18
J18
AN4
H1
K1
GPIO_01
GPIO_02
GPIO_03
GPIO_04
GPIO_05
GPIO_06
GPIO_07
GPIO_08
GPIO_09
GPIO_10
GPIO_11
GPIO_12
GPIO_20
GPIO_21
GPIO_22
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
D5
E6
F7
ADC_IN1
ADC_IN2
ADC_IN3
AI
AI
AI
G14
G12
V16
T16
R16
N16
L16
MAC_MDC
MAC_MDIO
MAC_TXD[0]
MAC_TXD[1]
MAC_TXD[2]
MAC_TXD[3]
MAC_GTX_CLK
I/O
G16
MAC_TXEN_ER
AL16
AJ16
AG16
AE16
AC16
MAC_RXD[0]
MAC_RXD[1]
MAC_RXD[2]
MAC_RXD[3]
MAC_RX_CLK
SPI Chip select output
SPI Clock output
I2C Interface
I2C Clock
I2C Data
Digital I/O
GPIO_01
GPIO_02
GPIO_03
GPIO_04
GPIO_05
GPIO_06
GPIO_07
GPIO_08
GPIO_09
GPIO_10
GPIO_11
GPIO_12
GPIO_20
GPIO_21
GPIO_22
Analog to Digital Converter
Analog to Digital Converter Input 1
Analog to Digital Converter Input 2
Analog to Digital Converter Input 3
Ethernet MAC/PHY Signals
Management Data Clock
Management Data I/O
RGMII or RMII TXD[0]
RGMII or RMII TXD[1]
RGMII TXD[2]
RGMII TXD[3]
RGMII Transmit Clock
RGMII Transmit Enable / Error or
RMII Transmit Enable
RGMII or RMII RXD[0]
RGMII or RMII RXD[1]
RGMII RXD[2]
RGMII RXD[3]
RGMII Receive Clock
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
1.8V
Analog
Analog
Analog
2.5/3.3V
2.5/3.3V
2.5/3.3V
2.5/3.3V
2.5/3.3V
2.5/3.3V
2.5/3.3V
2.5/3.3V
2.5/3.3V
2.5/3.3V
2.5/3.3V
2.5/3.3V
2.5/3.3V
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LE940B6 Hardware User Guide
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X16
MAC_RXDV_ER
G10
G8
ETH_INT_N
ETH_RST_N
AD1
AU9
S1
ANT_1
ANT_DIV_1
ANT_GPS
I/O
F17
K17
AN8
VRTC
VIO_1.8V
RESET_N
AI
AN10
SW_RDY
AN12
AS1
AU3
SHDN_N
ON_OFF_N
STAT_LED
P17
VAUX/PWRMON
H17
VPP
AP17
AP19
AR18
AR20
VBATT
VBATT
VBATT
VBATT
AS17
VBATT_PA
AS19
VBATT_PA
AT18
VBATT_PA
AU17
VBATT_PA
AU19
VBATT_PA
AT20
VBATT_PA
A6
A12
B13
B15
GND
GND
GND
GND
RGMII Receive Data Available/Error
or RMII Receive Error
Ethernet PHY Interrupt
Ethernet PHY Reset Output
RF Section
Primary Antenna 1
Diversity Antenna 1
GPS Antenna
Miscellaneous Functions
VRTC Backup capacitor
VIO_1.8V for reference voltage
Reset Input
Indicates that the boot sequence
completed successfully
Unconditional Shutdown Input
Power ON/OFF Input
Status Indicator LED
Supply output for external
accessories / Power ON Monitor
Vpp for eFuse
Power Supply
Main Power Supply (Digital Section)
Main Power Supply (Digital Section)
Main Power Supply (Digital Section)
Main Power Supply (Digital Section)
Main Power Supply (RF Transmit
Power Section)
Main Power Supply (RF Transmit
Power Section)
Main Power Supply (RF Transmit
Power Section)
Main Power Supply (RF Transmit
Power Section)
Main Power Supply (RF Transmit
Power Section)
Main Power Supply (RF Transmit
Power Section)
Ground
Ground
Ground
Ground
Ground
2.5/3.3V
2.5/3.3V
2.5/3.3V
RF
RF
RF
1.8V
Active low
1.8V
Active low
Active low
1.8V
1.8V
Power
Power
Power
Power
Power
Power
Power
Power
Power
Power
Ground
Ground
Ground
Ground
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LE940B6 Hardware User Guide
1VV0301331 Rev. 1.8 - 2017-03-15
B17
C4
C6
D3
D7
E18
F1
G18
H19
M1
N2
P1
P3
R2
T2
T18
U1
V18
W1
X2
X18
Y1
Y19
AA2
AB1
AC2
AE2
AF1
AG2
AH1
AJ2
AK1
AK17
AL18
AM17
AM19
AN16
AN18
AP3
AP5
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
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LE940B6 Hardware User Guide
1VV0301331 Rev. 1.8 - 2017-03-15
AP7
AP9
AP11
AP13
AP15
AR2
AR4
AR6
AR8
AR10
AR12
AR14
AR16
AS5
AS7
AS9
AS11
AS13
AS15
AT4
AT6
AT8
AT10
AT12
AT14
AT16
AU1
AU5
AU7
AU11
AU15
AL2
AN2
L20
N20
ZZ19
A20
AV20
ZZ1
A0
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
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LE940B6 Hardware User Guide
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AV0
N0
R0
T0
V0
X0
AA0
AC0
AE0
AG0
AJ0
AL0
AN0
AR0
AV8
AV10
AV12
AV14
AV16
AV18
T8
V8
X8
AA8
U9
W9
Y9
T10
V10
X10
AA10
U11
W11
Y11
T12
V12
X12
AA12
ZZ101
B101
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
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D101
U101
W101
Y101
AR101
AT101
AV101
ZZ102
B102
D102
U102
W102
Y102
AR102
AT102
AV102
B19
C20
E20
G20
J20
AN14
E8
E2
D1
C2
B1
C12
J4
G4
AE4
AC4
Y3
AB3
AD3
AF3
AH3
AK3
AM3
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
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AG4
AJ4
AL4
AM5
X4
AA4
S17
U17
AH17
Y17
AF17
AB17
W17
AD17
R20
T20
V20
X20
AA20
AC20
AE20
AG20
AJ20
AA16
J16
ZZ11
ZZ13
ZZ15
ZZ17
ZZ9
ZZ7
ZZ5
ZZ3
C0
E0
G0
J0
AM1
AU13
V2
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
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W3
A14
A16
F15
AP1
M17
AN6
AS3
AT2
S3
U3
L0
AM7
AL20
AN20
AT0
AV6
AV2
AV4
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
NOTE:
When the UART signals are used as the communication port between the host and the
modem:
•
The DTR pin must be connected to enter LE940B6 power saving mode.
•
The RI pin must be connected to wake up the host when a call is coming while the host
is in Sleep mode.
•
The RTS must be connected to GND (on the module side) if flow control is not used.
If the UART port is not used, all UART signals can be left disconnected.
NOTE:
Unless otherwise specified, RESERVED pins must be left unconnected (floating).
The only exceptions are in the following Section: 3.2 LE940B6 Signals That Must Be Connected.
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3.2.
LE940B6 Signals That Must Be Connected
Table 7 lists the LE940B6 signals that must be connected even if not used by the end application:
Table 7: Mandatory Signals
PAD
AP17, AP19, AR18, AR20, AS17, AS19, AT18,
AU17, AU19, AT20
A6, A12, B13, B15, B17, C4, C6, D3, D7, E18,
F1, G18, H19, M1, N2, P1, P3, R2, T2, T18, U1,
V18, W1, X2, X18, Y1, Y19, AA2, AB1, AC2, AE2,
AF1, AG2, AH1, AJ2, AK1, AK17, AL18, AM17,
AM19, AN16, AN18, AP3, AP5, AP7, AP9, AP11,
AP13, AP15, AR2, AR4, AR6, AR8, AR10, AR12,
AR14, AR16, AS5, AS7, AS9, AS11, AS13, AS15,
AT4, AT6, AT8, AT10, AT12, AT14, AT16, AU1,
AU5, AU7, AU11, AU15, AL2, AN2, L20, N20,
ZZ19, A20, AV20, ZZ1, A0, AV0, N0, R0, T0, V0,
X0, AA0, AC0, AE0, AG0, AJ0, AL0, AN0, AR0,
AV8, AV10, AV12, AV14, AV16, AV18, T8, V8,
X8, AA8, U9, W9, Y9, T10 ,V10, X10, AA10,
U11, W11, Y11, T12, V12, X12, AA12
Signal
VBATT &
VBATT_PA
GND
AS1
ON/OFF*
AN12
SHDN_N
D19
F19
A18
C20
E20
G20
Notes
USB_D+
If not used, connect to a test
point or a USB connector
USB_D-
If not used, connect to a test
point or a USB connector
USB_VBUS
If not used, connect to a test
point or a USB connector
USB_SS_RX_P
If not used, connect to a test
point or a USB connector
USB_SS_RX_M
If not used, connect to a test
point or a USB connector
USB_SS_TX_P
If not used, connect to a test
point or a USB connector
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J20
AH19
AF19
AA18
AK19
AB19
AD19
AD1
AU9
S1
E4, F3, F5, G2, H3, J2, K3, L2, M3, L4, N4, R4,
T4, V4
USB_SS_TX_M
If not used, connect to a test
point or a USB connector
C103/TXD
If not used, connect to a test
point
C104/RXD
If not used, connect to a test
point
C105/RTS
If flow control is not used,
connect to GND
C106/CTS
If not used, connect to a test
point
TXD_AUX
If not used, connect to a test
point
RXD_AUX
If not used, connect to a test
point
ANT_1
If not used, connect to a 50 Ohm
termination
ANT_DIV_1
If not used, connect to a 50 Ohm
termination
ANT_GPS
If not used, connect to a 50 Ohm
termination
For Analysis
Recommended to connect to test
points for analysis
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3.3.
LGA Pads Layout
Figure 2: LGA Pads Layout LE940B6 334 Pads Top View
ZZ
101
GND
GND
RFU
10
11
13
15
102
RFU
TI_CLK
RFU
RFU
JTAG_P
JTAG_P
TI_DAT
TI_DAT
TI_DAT
TI_DAT
A0
A1
A2
A3
AE
AF
AG
AH
AJ
AK
AL
GND
GND
GND
GND
GND
RFU
RFU
GND
GND
RFU
RFU
GND
ANT_1
GND
GND
GND
RFU
RFU
GND
GND
RFU
RFU
GND
GND
MAC_MD
GND
GND
GND
GND
GND
GND
GND
GND
RFU
RFU
RFU
RFU
RFU
RESET_
SW_RDY
UART3_
GND
SHDN_N
TOP VIEW
GND
RFU
UART3_
MAC_TX
RFU
EN_ER
VRTC
USB_D-
MAC_TX
MAC_TX
MAC_TX
MAC_RX
D[3]
D[2]
D[1]
D[0]
DV_ER
VAUX/P
RFU
GPIO_1
GPIO_1
GND
RFU
MAC_TX
X_CLK
VIO_1.8
VPP
GND
MAC_GT
RFU
WRMON
GPIO_0
SPI_CS
RFU
GND
RFU
GND
SPI_MIS
SPI_CL
GPIO_0
GPIO_0
GPIO_1
SI
GND
GND
RFU
RFU
RFU
GND
RFU
GND
SPI_MO
RFU
RFU
MAC_RX
MAC_RX
MAC_RX
MAC_RX
MAC_RX
_CLK
D[3]
D[2]
D[1]
D[0]
RFU
RFU
RFU
RFU
GND
C105/RT
C108/DT
C109/DC
C107/DS
C125/RI
NG
GND
GND
RFU
TXD_AU
RXD_AU
C104/RX
C103/TX
C106/CT
RFU
RFU
RFU
RFU
GND
GND
GND
RFU
GND
VBATT
RFU
GND
VBATT_
PA
VBATT_
VBATT_
VBATT_
PA
PA
VBATT_
PA
AA
AB
AC
AD
AE
AF
AG
AH
AJ
AK
AL
AM
AN
AP
AR
GND
AS
AT
AU
14
15
16
17
GND
PA
12
13
GND
PA
GND
11
GND
VBATT_
VBATT
GND
GND
VBATT
10
RFU
GND
VBATT
GND
GND
GND
GND
GND
RFU
GND
GND
CTS
GND
GND
GND
V_1
GND
GND
GND
ANT_DI
GND
RFU
GND
GND
GND
GND
RXD
GND
RFU
GND
GND
GND
GND
GND
TXD
GND
ED
GND
GND
101
RFU
GND
GND
GND
STAT_L
RFU
GND
UART3_
RFU
GND
AV
GND
_N
GND
AU
RFU
ON_OFF
GND
RFU
AT
GND
GND
GND
GND
AS
GND
GPIO_2
RFU
GND
GND
AR
RFU
GND
GND
GND
GND
AP
GND
GND
RFU
AN
RFU
RTS
AM
UART3_
RFU
AD
LE940B6 (40 mm X 40 mm) Form Factor Pin MAP
GND
AC
GND
GND
RFU
JTAG_P
AB
GPIO_0
USB_D+
GND
JTAG_P
GND
GND
RFU
AA
GND
GND
JTAG_P
GPIO_0
GND
RFU
RIGIN
GND
GND
GND
GND
IO
SIMIN2
GND
MAC_MD
SIMRST
GND
JTAG_T
DO
GND
SIMIO2
GND
GPIO_0
SIMCLK
JTAG_T
CK
GND
ANT_GP
T_N
SIMVCC
GND
RFU
GPIO_0
I2C_SDA
I2C_SCL
GND
JTAG_T
RFU
GND
GND
RFU
GND
GPIO_0
DVI_WA
GND
ETH_RS
RFU
DVI_TX
SIMRST
GND
T_N
GND
ADC_IN
GND
ETH_IN
GND
ZZ
MIC_BIA
US
20
ADC_IN
GPIO_0
USB_VB
RFU
RFU
GND
MS
DVI_CL
RFU
18
19
RIGOUT
DVI_RX
JTAG_T
RFU
16
17
JTAG_T
RFU
RFU
GPIO_2
RFU
DI
GND
RFU
GPIO_2
RST_N
SIMCLK
RFU
14
JTAG_T
ADC_IN
GND
JTAG_T
SIMIO1
RFU
12
TCK
JTAG_R
SIMIN1
RFU
JTAG_R
ESOUT_
T+
RFU
EAR1_M
SIMVCC
GND
RFU
GND
GND
RFU
RFU
GND
T+
T-
GND
RFU
RFU
EAR1_M
GND
MIC1_M
RFU
RFU
T-
RFU
MIC1_M
GND
GND
18
19
GND
20
GND
102
AV
(*) MMC is not supported, and the pins assigned for it became Reserved
NOTE:
The pin defined as RFU must be considered RESERVED and not connected to any pin in the
application. The related area on the application must be kept empty.
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LE940B6 Hardware User Guide
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4.
Electrical Specifications
4.1.
Absolute Maximum Ratings – Not Operational
Caution:
A deviation from the value ranges listed below may harm the LE940B6 module.
Table 8: Absolute Maximum Ratings – Not Operational
Symbol
4.2.
Parameter
Min
Max
Unit
VBATT
Battery supply voltage on pin VBATT
-0.3
+6.0
[V]
VBATT_PA
Battery supply voltage on pin VBATT_PA
-0.3
+6.0
[V]
Recommended Operating Conditions
Table 9: Recommended Operating Conditions
Symbol
Parameter
Min
Typ
Max
Unit
Tamb
Ambient temperature
-40
+25
+85
[°C]
VBATT
Battery supply voltage on pin
VBATT
3.4
3.8
4.2
[V]
VBATT_PA
Battery supply voltage on pin
VBATT_PA
3.4
3.8
4.2
[V]
IBATT_PA + IBATT
Peak current to be used to
dimension decoupling
capacitors on pin VBATT_PA
80
2000
[mA]
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4.3.
Logic Level Specifications
Unless otherwise specified, all the interface circuits of the LE940B6 are 1.8V CMOS logic.
Only few specific interfaces (such as MAC, USIM and SD Card) are capable of dual voltage I/O.
The following tables show the logic level specifications used in the LE940B6 interface circuits. The
data specified in the tables below is valid throughout all drive strengths and the entire
temperature ranges.
NOTE:
Do not connect LE940B6 digital logic signals directly to OEM digital logic signals with a level
higher than 2.7V for 1.8V CMOS signals.
4.3.1.
1.8V Standard GPIOs
Table 10: Absolute Maximum Ratings – Not Functional
Parameter
Input level on standard GPIOs when on
Min
-0.3V
Max
+2.3V
Table 11: Operating Range – Interface Levels (1.8V CMOS)
Parameter
Min
Max
Input high level
1.26V
2.0V
Input low level
-0.2V
0.36V
Output high level
1.6V
---
Output low level
---
0.2V
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4.3.2.
1.8V I2C Pads
Table 12: Operating Range – 1.8V I2C Pads
Parameter
4.3.3.
Min
Max
Input high level
1.26V
2.3V
Input low level
-0.3V
0.54V
Output high level
---
---
Output low level
---
0.36V
1.2V EMIC Pads
Table 13: Operating Range – 1.2V EMIC Pads
Parameter
Min
Max
Input high level
0.84V
1.4V
Input low level
-0.2V
0.24V
Output high level
1.0V
---
Output low level
---
0.2V
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LE940B6 Hardware User Guide
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4.3.4.
1.8V/2.9V SIM Pads
Table 14: Operating Range – 1.8V SIM Pads
Parameter
Min
Max
Input high level
1.26V
2.1V
Input low level
-0.3V
0.36V
Output high level
1.26V
2.1V
Output low level
-0.3V
0.36V
Table 15: Operating Range – 2.9V SIM Pads
Parameter
4.3.5.
Min
Max
Input high level
2.03V
3.1V
Input low level
-0.3V
0.58V
Output high level
2.03V
3.1V
Output low level
-0.3V
0.58V
USB
Table 16: Operating Range – USB_D+, USB_D- Pads
Parameter
Min
Max
Input high level
2.0V
---
Input low level
---
0.8V
Output high level
2.8V
---
Output low level
---
0.3V
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4.3.6.
2.5V/3.3V EMAC Interface for RMII and RGMII
Table 17: Absolute Maximum Ratings – 3.3V EMAC Interface
Parameter
Input level on 3.3V EMAC when on
Min
-0.3V
Max
3.6V
Table 18: Operating Range – 2.5V EMAC Interface
Parameter
Min
Max
Input high level
1.7V
2.5V
Input low level
-0.3V
0.7V
Output high level
2V
---
Output low level
---
0.4V
Table 19: Operating Range – 3.3V EMAC Interface
Parameter
Min
Max
Input high level
2V
3.3V
Input low level
-0.3V
0.8V
Output high level
2.6V
---
Output low level
---
0.5V
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LE940B6 Hardware User Guide
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5.
Hardware Commands
5.1.
Turning on the LE940B6 Module
To turn on the LE940B6 module, the ON_OFF_N pad must be asserted low in the range of 80 - 120
milliseconds and then released.
Figure 3 illustrates a simple circuit to power on the module using an inverted buffer output.
Figure 3: Power-on Circuit
ON_OFF_N
80ms < Hold Time < 120ms
R1
Q1
Power ON Impulse
R2
GND
NOTE:
In case VBATT need to be removed and applied again. The application must take into account the
decay time of the power supply after removal of VBATT. VBATT input must be at zero volt prior
to the reapplication of VBATT."
5.2.
Initialization and Activation State
After turning on the LE940B6 module, a predefined internal boot sequence performs the HW and
SW initialization of the module, which takes some time to fully complete. During this process, the
LE940B6 is not accessible.
As shown in Figure 4, the LE940B6 becomes operational at least 25 seconds after PWRMON goes
HIGH.
NOTE:
During the Initialization state, AT commands are not available. The DTE host must wait for the
Activation state prior to communicating with the LE940B6.
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Figure 4: LE940B6 Initialization and Activation
NOTE:
To check whether the LE940B6 has completely powered on, monitor the SW_RDY hardware line.
When SW_RDY goes high, the module has completely powered on and is ready to accept AT
commands.
NOTE:
Do not use any pull-up resistor on the ON_OFF_N line as it is internally pulled up. Using a pull-up
resistor may cause latch-up problems on the LE940B6 power regulator and improper powering
on/off of the module. The ON_OFF_N line must be connected only in an open-collector
configuration.
NOTE:
To avoid a back-powering effect, it is recommended to avoid having any HIGH logic level signal
applied to the digital pins of the module when it is powered OFF or during an ON/OFF transition.
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Figure 5 shows a flow chart for the proper power-up procedure:
Figure 5: Power-up Flow Chart
Modem ON Procedure
START
VBATT > 3.4V ?
VAUX/PWRMON = ON?
ON_OFF_N = LOW
Go to
HW SHUTDOWN
Unconditional
80 ms < Hold Time < 120 ms
ON_OFF_N = HIGH
VAUX/PWRMON = ON?
Delay = 25 sec
Go to
Start AT CMD
Modem ON Procedure
END
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Figure 6 shows a flow chart illustrating the AT commands managing procedure.
Figure 6: AT Command Managing Flow Chart
Start AT CMD
START
Delay 300 ms
Enter AT 
AT Answer in
1 sec ?
Go to
HW SHUTDOWN
Undonditional
Start AT CMD
END
Go to
Modem ON Procedure
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5.3.
Turning off the LE940B6 Module
Turning off the device can be done in four different ways:
•
Shutdown by software command using AT#SHDN command
•
Hardware shutdown using ON_OFF_N pad
•
Hardware Unconditional Reset using the RESET_N pad
•
Hardware Unconditional Shutdown using the SHDN_N pad
When the device is shut down by a software command or a hardware shutdown, it issues a
detach request to the network, informing the network that the device will not be reachable any
more.
NOTE:
To check if the device has powered off, monitor the VAUX/PWRMON hardware line. When
VAUX/PWRMON goes low, this indicates that the device has powered off.
NOTE:
To avoid a back-powering effect, it is recommended to avoid having any HIGH logic level signal
applied to the digital pins of the module when it is powered OFF or during an ON/OFF transition.
NOTE:
VBATT must be never removed before the proper OFF procedure is performed.
NOTE:
In case VBATT need to be removed and applied again. The application must take into account the
decay time of the power supply after removal of VBATT. VBATT input must be at zero volt prior
to the reapplication of VBATT.”
5.3.1.
Shutdown by Software Command
The LE940B6 module can be shut down by a software command.
When a shutdown command is sent, LE940B6 goes into the Finalization state and at the end of
the finalization process shuts down VAUX/PWRMON.
The duration of the Finalization state can differ according to the current situation of the module,
so a value cannot be defined.
Usually, it will take more than 6 seconds from sending a shutdown command until reaching a
complete shutdown. The DTE host should monitor the status of VAUX/PWRMON to observe the
actual power-off.
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Figure 7: Shutdown by Software Command
VBATT
AT#SHDN
VAUX/PWRMON
Monitoring Status
Variable Above
6 sec
Internal State
Activation State
Finalization State
OFF State
NOTE:
To check whether the device has powered off, monitor the VAUX/PWRMON hardware line.
When VAUX/PWRMON goes low, the device has powered off.
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5.3.2.
Hardware Shutdown
To turn off the LE940B6 module, the ON_OFF_N pad must be asserted low in the range of 1150 1250 milliseconds and then released. Use the same circuitry and timing for power-on.
When the ON_OFF_N is asserted low for a period in the range 1150 - 1250 milliseconds and then
released, LE940B6 goes into the Finalization state and in the end shuts down VAUX/PWRMON.
The duration of the Finalization state can differ according to the current situation of the module,
so a value cannot be defined.
Usually, it will take more than 6 seconds from sending a shutdown command until reaching a
complete shutdown. The DTE host should monitor the status of VAUX/PWRMON to observe the
actual power-off.
Figure 8: Hardware Shutdown
VBATT
1150ms < Hold Time < 1250ms
ON_OFF_N
VAUX/PWRMON
Variable Above
6 sec
Internal State
Activation State
Finalization State
Monitoring Status
OFF State
NOTE:
To check whether the device has powered off, monitor the VAUX/PWRMON hardware line.
When VAUX/PWRMON goes low, the device has powered off.
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5.3.3.
Unconditional Hardware Reset (RESET_N)
To unconditionally restart the LE940B6 module, the RESET_N pad must be tied low in the range
1300 - 1800 milliseconds and then released.
Figure 9 shows a simple circuit for this action.
Figure 9: Circuit for Unconditional Hardware Reset
RESET_N
1300ms < Hold Time < 1800ms
R1
Unconditional
Reset Impulse
Q1
R2
GND
NOTE:
The Unconditional Hardware Reset must always be implemented on the boards, but the software
must use it only as an emergency exit procedure, and not as a normal power-off operation.
NOTE:
Do not use any pull-up resistor on the RESET_N line or any totem pole digital output. Using a pullup resistor may cause latch-up problems on the LE940B6 power regulator and improper
functioning of the module. The RESET_N line must be connected only in an open-collector
configuration.
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5.3.4.
Unconditional Hardware Shutdown
To unconditionally shut down the LE940B6 module, the SHDN_N pad must be tied low for at least
200 milliseconds and then released.
Figure 10 shows a simple circuit for applying an unconditional shutdown.
Figure 10: Circuit for Unconditional Hardware Shutdown
SHDN_N
At least 200ms
Unconditional
Shutdown Impulse
R1
Q1
R2
GND
To check whether the device has powered off, monitor the VAUX/PWRMON hardware line. When
VAUX/PWRMON goes low, the device has powered off.
NOTE:
Do not use any pull-up resistor on the SHDN_N line or any totem pole digital output. Using a pullup resistor may cause latch-up problems on the LE940B6 power regulator and improper
functioning of the module. The SHDN_N line must be connected only in an open-collector
configuration.
NOTE:
The Unconditional Hardware Shutdown (SHDN_N) must always be implemented on the boards,
but the software must use it only as an emergency exit procedure, and not as a normal power-off
operation.
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Figure 11 shows a flow chart of the proper turn off procedure.
Figure 11: Turn Off Procedure
Modem OFF Procedure
START
VAUX/PWRMON = ON?
SW SHUTDOWN
HW SHUTDOWN
OFF Mode
ON_OFF_N = LOW
AT#SHDN
Delay = 200 ms
ON_OFF_N = HIGH
VAUX/PWRMON = ON?
Modem OFF Procedure
END
Looping for more
6 sec
Go to
Start AT CMD
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6.
Power Supply
The power supply circuitry and board layout are very important parts of the full product design,
with critical impact on the overall product performance. Read the following requirements and
guidelines carefully to ensure a good and proper design.
6.1.
Power Supply Requirements
The LE940B6 power requirements are as follows:
Table 20: Power Supply Requirements
Nominal supply voltage
3.8V
Supply voltage range
3.4V – 4.2V
Max ripple on module input supply
30 mV
Table 21 provides typical current consumption values of LE940B6 for the various available modes.
Table 21: LE940B6 Current Consumption
Mode
Average (Typ.)
Mode Description
Switched Off
Switched off
0.1 mA
Module supplied but switched Off
Idle Mode (Standby Mode; No Call in Progress)
AT+CFUN=4
2.5 mA
Tx and Rx disabled ; module is not registered on the
network (Flight mode)
GSM
4.7 mA
DRx5
WCDMA
4.7 mA
DRx6
3.6 mA
DRx7
3.1 mA
DRx8
2.8 mA
DRx9
7.7 mA
Paging cycle #32 frames (0.32 sec DRx cycle)
5.1 mA
Paging cycle #64 frames (0.64 sec DRx cycle)
DRx
LTE
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Mode
Average (Typ.)
Mode Description
3.8 mA
Paging cycle #128 frames (1.28 sec DRx cycle)
3.2 mA
Paging cycle #256 frames (2.56 sec DRx cycle)
Operative Mode (LTE)
300 mA
LTE data call (Non-CA BW 5 MHz, RB=1)
500 mA
LTE data call (CA BW 20 + 20MHz, Full RB, B4+B4 Intra
CA, FDD 300 Mbps DL / 50 Mbps UL) without Ethernet
750 mA
LTE data call (CA BW 20 + 20MHz, Full RB, B4+B4 Intra
CA, FDD 300 Mbps DL / 50 Mbps UL) with Ethernet
760 mA
LTE data call (Non-CA BW 5MHz, RB=1)
1000 mA
LTE data call (CA BW 20 + 20MHz, Full RB, B4+B4 Intra
CA, FDD 300 Mbps DL / 50 Mbps UL) without Ethernet
1250 mA
LTE data call (CA BW 20 + 20MHz, Full RB, B4+B4 Intra
CA, FDD 300 Mbps DL / 50 Mbps UL) with Ethernet
LTE (0dBm)
LTE (23dBm)
Operative Mode (WCDMA)
WCDMA Voice
WCDMA HSDPA
(0 dBm)
WCDMA HSDPA
(23 dBm)
690 mA
WCDMA voice call (Tx = 23 dBm)
300 mA
WCDMA data call (DC-HSDPA up to 42 Mbps, Max
Throughput) without Ethernet
550 mA
WCDMA data call (DC-HSDPA up to 42 Mbps, Max
Throughput) with Ethernet
700 mA
WCDMA data call (DC-HSDPA up to 42 Mbps, Max
Throughput) without Ethernet
950 mA
WCDMA data call (DC-HSDPA up to 42 Mbps, Max
Throughput) with Ethernet
Operative Mode (GSM)
GSM Tx and Rx mode
GSM 850/900 PL5
360 mA
GSM voice call
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Mode
GSM 1800/1900
PL0
Average (Typ.)
Mode Description
300 mA
GPRS 4 Tx + 1 Rx
GSM 850/900 PL5
750 mA
GPRS Sending Data mode (CS-4)
DCS 1800/1900 PL0
550 mA
EGPRS 4 Tx + 1 Rx
GSM 850/900 PL8
550 mA
DCS 1800/1900 PL2
500 mA
GPRS Sending Data mode (MCS-5)
* Worst/best case current values depend on network configuration, not under module control.
** Applied MPR –2dB 16-QAM full RB
*** 3.8V voltage/room temperature
NOTE:
Differences in measurement technique, equipment, or temperature can cause variations in
current consumption measurements.
NOTE:
The electrical design for the power supply must ensure a peak current output of at least 2.0A.
NOTE:
In GSM/GPRS mode, RF transmission is not continuous, but is packed into bursts at a base
frequency of about 216 Hz with relative current peaks as high as about 2.0A. Therefore, the
power supply must be designed to withstand these current peaks without big voltage drops. This
means that both the electrical design and the board layout must be designed for this current
flow.
If the layout of the PCB is not well designed, a strong noise floor is generated on the ground. This
will reflect on all the audio paths producing an audible annoying noise at 216 Hz.
If the voltage drops during the peaks, current absorption is too high. The device may even shut
down as a consequence of the supply voltage drop.
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6.2.
General Design Rules
The principal guidelines for the Power Supply Design embrace three different design steps:
6.2.1.
•
Electrical design
•
Thermal design
•
PCB layout
Electrical Design Guidelines
The electrical design of the power supply depends strongly on the power source where this
power is drained. Power sources can be distinguished by three categories:
6.2.1.1.
•
+5V input (typically PC internal regulator output)
•
+12V input (typically automotive)
•
Battery
+ 5V Input Source Power Supply – Design Guidelines
•
The desired output for the power supply is 3.8V. So, the difference between the input source
and the desired output is not big, and therefore a linear regulator can be used. A switching
power supply is preferred to reduce power consumption.
•
When using a linear regulator, a proper heat sink must be provided to dissipate the power
generated.
•
A bypass low ESR capacitor of adequate capacity must be provided to cut the current
absorption peaks close to the LE940B6 module. A 100 μF tantalum capacitor is usually
suitable on both VBATT and VBATT_PA power lines.
•
Make sure that the low ESR capacitor on the power supply output (usually a tantalum one) is
rated at least 10V.
•
A protection diode must be inserted close to the power input to protect the LE940B6 module
from power polarity inversion.
Figure 12 shows an example of linear regulator with 5V input.
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Figure 12: Example of Linear Regulator with 5V Input
6.2.1.2.
+ 12V Input Source Power Supply – Design Guidelines
•
The desired output for the power supply is 3.8V. Due to the big difference between the input
source and the desired output, a linear regulator is unsuitable and must not be used. A
switching power supply is preferable because of its better efficiency, especially with the
2A peak current load expected when working with the LE940B6.
•
When using a switching regulator, a 500-kHz or higher switching frequency regulator is
preferable because of its smaller inductor size and its faster transient response. This allows
the regulator to respond quickly to the current peaks absorption.
•
In any case, the selection of the frequency and switching design is related to the application
to be developed due to the fact that the switching frequency can also generate EMC
interference.
•
For car batteries (lead-acid accumulators) the input voltage can rise up to 15.8V. This must be
kept in mind when choosing components: all components in the power supply must
withstand this voltage.
•
A bypass low ESR capacitor of adequate capacity must be provided to cut the current
absorption peaks. A 100μF tantalum capacitor is usually suitable on VBATT & VBATT_PA
power lines.
•
Make sure that the low ESR capacitor on the power supply output (usually a tantalum one) is
rated at least 10V.
•
For automotive applications, a spike protection diode must be inserted close to the power
input to clean the supply of spikes.
•
A protection diode must be inserted close to the power input to protect the LE940B6 module
from power polarity inversion. This can be the same diode as for spike protection.
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Figure 13 and Figure 14 show an example of switching regulator with 12V input.
Figure 13: Example of Switching Regulator with 12V Input – Part 1
Figure 14: Example of Switching Regulator with 12V Input – Part 2
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6.2.1.3.
Battery Source Power Supply – Design Guidelines
•
The desired nominal output for the power supply is 3.8V, and the maximum allowed voltage
is 4.2V. Hence, a single 3.7V Li-Ion cell battery type is suitable for supplying the power to the
LE940B6 module.
NOTE:
Do not use any Ni-Cd, Ni-MH, and Pb battery types directly connected to the LE940B6 module.
Their use can lead to overvoltage on the LE940B6 and damage it. Use only Li-Ion battery types.
•
A bypass low ESR capacitor of adequate capacity must be provided to cut the current
absorption peaks; a 100μF tantalum capacitor is usually suitable.
•
Make sure that the low ESR capacitor (usually a tantalum one) is rated at least 10V.
•
A protection diode must be inserted close to the power input to protect the LE940B6 module
from power polarity inversion. Otherwise, the battery connector must be done in a way to
avoid polarity inversions when connecting the battery.
•
The battery capacity must be at least 500 mAh to withstand the current peaks of 2A. The
suggested capacity is from 500 mAh to 1000 mAh.
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6.2.2.
Thermal Design Guidelines
The thermal design for the power supply heat sink must be done with the following specifications:
•
Average current consumption during LTE 2xCA DL Max throughput @PWR level max in
LE940B6: 1250 mA
NOTE:
The average consumption during transmission depends on the power level at which the device is
requested to transmit via the network. Therefore, the average current consumption varies
significantly.
In LTE mode, the LE940B6 emits RF signals continuously during transmission. Therefore, pay
special attention to how the generated heat is dissipated.
The current consumption is up to about 1250 mA in 2xCA Max throughput, and 1250 mA in LTE
continuously at the maximum Tx output power 23.0 dBm.
The current consumption is up to about 1250 mA continuously at the maximum Tx output power
(23 dBm). Therefore, make sure on the PCB used to mount LE940B6, that the area under the
LE940B6 module is as large as possible. Make sure that the LE940B6 is mounted on the large
ground area of application board and provide many ground vias to dissipate the heat.
6.2.3.
Power Supply PCB Layout Guidelines
As seen in the electrical design guidelines, the power supply must have a low ESR capacitor on the
output to cut the current peaks and a protection diode on the input to protect the supply from
spikes and polarity inversion. The placement of these components is crucial for the correct
operation of the circuitry. A misplaced component can be useless or can even decrease the power
supply performances.
•
The bypass low ESR capacitor must be placed close to the LE940B6 power input pads, or if the
power supply is of a switching type, it can be placed close to the inductor to cut the ripple, as
long as the PCB trace from the capacitor to LE940B6 is wide enough to ensure a drop-less
connection even during the 2A current peaks.
•
The protection diode must be placed close to the input connector where the power source is
drained.
•
The PCB traces from the input connector to the power regulator IC must be wide enough to
ensure that no voltage drops occur during the 2A current peaks.
Note that this is not done to save power loss but especially to avoid the voltage drops on the
power line at the current peaks frequency of 216 Hz that will reflect on all the components
connected to that supply (also introducing the noise floor at the burst base frequency.)
For this reason while a voltage drop of 300-400 mV may be acceptable from the power loss
point of view, the same voltage drop may not be acceptable from the noise point of view. If
your application does not have an audio interface but only uses the data feature of the
LE940B6, this noise is not so disturbing, and the power supply layout design can be more
forgiving.
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•
The PCB traces to LE940B6 and the bypass capacitor must be wide enough to ensure that no
significant voltage drops occur when the 2A current peaks are absorbed. This is needed for
the same above-mentioned reasons. Try to keep these traces as short as possible.
•
The PCB traces connecting the switching output to the inductor and the switching diode must
be kept as short as possible by placing the inductor and the diode very close to the power
switching IC (only for the switching power supply). This is done to reduce the radiated field
(noise) at the switching frequency (usually 100-500 kHz).
•
Use a good common ground plane.
•
Place the power supply on the board in a way to guarantee that the high current return paths
in the ground plane do not overlap any noise sensitive circuitry, such as the microphone
amplifier/buffer or earphone amplifier.
•
The power supply input cables must be kept separate from noise sensitive lines, such as
microphone/earphone cables.
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7.
Antenna(s)
Antenna connection and board layout design are the most important parts in the full product
design, and they have a strong influence on the product’s overall performance. Read carefully and
follow the requirements and guidelines for a good and proper design.
7.1.
GSM/WCDMA/TD-SCDMA/LTE Antenna Requirements
The antenna for the LE940B6 device must meet the following requirements:
Table 22: Primary Antenna Requirements
Gain
Gain < 3 dBi
Impedance
50 Ohm
Input power
> 33 dBm(2 W) peak power in GSM
> 24 dBm average power in WCDMA & LTE
VSWR absolute max
<= 10:1
VSWR recommended
<= 2:1
The antenna for a specific car model must support a given set of RF bands. This set is determined
by the region variant and the specific set of bands within (either the full band set offered by Telit
or a subset per the customer choice). The antenna must have the proper bandwidth to support
the required set of bands and meet the other performance figures according to the Table 22,
along the full bandwidth. The RF bands supported in each region variant are detailed in
Section 2.5.1, RF Bands per Regional Variant.
Since there is no antenna connector on the LE940B6 module, the antenna must be connected to
the LE940B6 antenna pad (AD1) by a transmission line implemented on the PCB.
If the antenna is not directly connected to the antenna pad of the LE940B6, a PCB line is required
to connect to it or to its connector.
7.2.
GSM/WCDMA/TD-SCDMA/LTE Antenna – PCB Line Guidelines
•
Make sure that the transmission line’s characteristic impedance is 50 Ohm.
•
Keep the line on the PCB as short as possible since the antenna line loss should be less than
around 0.3 dB.
•
Line geometry should have uniform characteristics, constant cross sections, and avoid
meanders and abrupt curves.
•
Any suitable geometry/structure can be used for implementing the printed transmission line
affecting the antenna.
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•
If a ground plane is required in the line geometry, this plane must be continuous and
sufficiently extended so the geometry can be as similar as possible to the related canonical
model.
•
Keep, if possible, at least one layer of the PCB used only for the ground plane. If possible, use
this layer as reference ground plane for the transmission line.
•
Surround the PCB transmission line with ground (on both sides). Avoid having other signal
tracks facing the antenna line track directly.
•
Avoid crossing any un-shielded transmission line footprint with other tracks on different
layers.
•
The ground surrounding the antenna line on the PCB must be strictly connected to the main
Ground plane by means of via-holes (once per 2 mm at least) placed close to the ground
edges facing the line track.
•
Place EM-noisy devices as far as possible from LE940B6 antenna line.
•
Keep the antenna line far away from the LE940B6 power supply lines.
•
If EM-noisy devices are present on the PCB hosting the LE940B6, such as fast switching ICs,
take care to shield them with a metal frame cover.
•
If EM-noisy devices are not present around the line, geometries like Micro strip or Grounded
Coplanar Waveguide are preferred because they typically ensure less attenuation compared
to a Strip line having the same length.
This transmission line must meet the following requirements:
Table 23: Antenna Line on PCB Requirements
Characteristic impedance
50 Ohm
Max attenuation
0.3 dB
Avoid coupling with other signals.
Cold End (Ground Plane) of the antenna must be equipotential to the LE940B6 ground pads.
Furthermore if the device is developed for the US and/or Canada market, it must comply with the
FCC and/or IC approval requirements:
This device is to be used only for mobile and fixed application. The antenna(s) used for this
transmitter must be installed to provide a separation distance of at least 20 cm from all persons
and must not be co-located or operating in conjunction with any other antenna or transmitter. EndUsers must be provided with transmitter operation conditions for satisfying RF exposure compliance.
OEM integrators must ensure that the end user has no manual instructions to remove or install the
LE940B6 module. Antennas used for this OEM module must not exceed 3dBi gain for mobile and
fixed operating configurations.
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7.3.
7.4.
GSM/WCDMA/TD-SCDMA/LTE Antenna – Installation Guidelines
•
Install the antenna in a location with access to the network radio signal.
•
The antenna must be installed such that it provides a separation distance of at least 20 cm
from all persons and must not be co-located or operating in conjunction with any other
antenna or transmitter.
•
The antenna must not be installed inside metal cases.
•
The antenna must be installed according to the antenna manufacturer’s instructions.
Secondary Antenna Requirements
This product includes an input for a second Rx antenna to improve radio sensitivity. The function
is called Antenna Diversity.
Since there is no antenna connector on the LE940B6 module, the antenna must be connected to
the LE940B6 antenna pad by means of a transmission line implemented on the PCB.
If the antenna is not directly connected at the antenna pad of the LE940B6 (AU9), a PCB line is
required to connect to it or to its connector.
The second Rx antenna must not be located in close vicinity of the main antenna. To improve
diversity gain and isolation and to reduce mutual interaction, the two antennas should be located
at the maximum reciprocal distance possible, taking into consideration the available space within
the application.
NOTE:
If Rx Diversity is not used/connected, disable the Diversity functionality using the AT+XRXDIV
command (refer to Ref 1: LE940B6 AT Command Reference Guide) and connect the Diversity pad
AU9 to a 50 Ohm termination.
7.5.
PCB Guidelines in case of FCC certification
In the case FCC certification is required for an application using LE940B6-NA, according to FCC
KDB 996369 for modular approval requirements, the transmission line has to be similar to that
implemented on module’s interface board and described in the following chapter.
7.5.1.
Transmission line design
During the design of the interface board, the placement of components has been chosen
properly, in order to keep the line length as short as possible, thus leading to lowest power losses
possible. A Grounded Coplanar Waveguide (G-CPW) line has been chosen, since this kind of
transmission line ensures good impedance control and can be implemented in an outer PCB layer
as needed in this case. A SMA female connector has been used to feed the line.
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The interface board is realized on a FR4, 4-layers PCB. Substrate material is characterized by
relative permittivity εr = 4.6 ± 0.4 @ 1 GHz, TanD= 0.019 ÷ 0.026 @ 1 GHz.
A characteristic impedance of nearly 50 Ω is achieved using trace width = 1.1 mm, clearance from
coplanar ground plane = 0.3 mm each side. The line uses reference ground plane on layer 3, while
copper is removed from layer 2 underneath the line. Height of trace above ground plane is 1.335
mm. Calculated characteristic impedance is 51.6 Ω, estimated line loss is less than 0.1 dB. The line
geometry is shown below:
7.5.2.
Transmission line measurements
E5071C NA (Full-4-port calibration) has been used in this measurement session. A calibrated
coaxial cable has been soldered at the pad corresponding to RF output; a SMA connector has
been soldered to the board in order to characterize the losses of the transmission line including
the connector itself. During Return Loss / impedance measurements, the transmission line has
been terminated to 50 Ω load.
Return Loss plot of line under test is shown below:
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Line input impedance (in Smith Chart format, once the line has been terminated to 50 Ω load) is
shown in the following figure:
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Insertion Loss of G-CPW line plus SMA connector is shown below:
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8.
Hardware Interfaces
Table 24 summarizes all the hardware interfaces of the LE940B6 module.
Table 24: LE940B6 Hardware Interfaces
LE940B6 (XMM7272 CAT6)
Ethernet
RMII/RGMII
USB
USB2.0
SPI
Master only, up to 26 MHz (104 MHz @ Kernel CLK/4)
I2C
For sensors, audio control
UART
x1 UART for AT (up to 4.8 Mbps)
x1 UART for diagnosis (up to 4.8 Mbps)
x1 UART for GNSS or external controller (up to 4.8 Mbps)
Audio I/F
I2S/PCM, Analog audio
GPIO
15 dedicated GPIO
USIM
X2, dual voltage each (1.8/2.9V);
SIM chip integration not possible
ADC
Up to x3
Antenna ports
2 for Cellular, 1 for GNSS
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8.1.
USB Port
The LE940B6 module includes a Universal Serial Bus (USB) transceiver, which operates at USB
high-speed (480Mbits/sec). It can also operate with USB full-speed hosts (12Mbits/sec).
It is compliant with the USB 2.0 specification and can be used for control and data transfers as
well as for diagnostic monitoring and firmware update.
NOTE:
With the LE940B6 module, firmware updates by the host are only possible via USB and not
possible via UART. The reason is that Telit considers it impractical to transfer firmware binaries
exceeding 100Mb via UART.
The USB port is typically the main interface between the LE940B6 module and OEM hardware.
NOTE:
The USB_D+ and USB_D- signals have a clock rate of 480 MHz. The signal traces must be routed
carefully. Minimize trace lengths, number of vias, and capacitive loading. The impedance value
should be as close as possible to 90 Ohms differential.
The pull-up, pull-down and series resistors on pins USB_D+ and USB_D- as required by the USB
2.0 specification are included inside the module.
Table 25 lists the USB interface signals.
Table 25: USB Interface Signals
Signal
USB_VBUS
Pad
No.
A18
Usage
Power and cable detection for the internal USB transceiver.
Acceptable input voltage range 2.5V – 5.5V @ max 5 mA consumption
USB_D-
F19
Minus (-) line of the differential, bi-directional USB signal to/from the
peripheral device
USB_D+
D19
Plus (+) line of the differential, bi-directional USB signal to/from the
peripheral device
NOTE:
USB_VBUS input power is internally used to detect the USB port and start the enumeration
process. It is not used for supplying power to the internal LE940B6 USB HW block.
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NOTE:
Even if USB communication is not used, it is still highly recommended to place an optional USB
connector on the application board.
At least test points of the USB signals are required since the USB physical communication is
needed in the case of SW update.
Warning:
Consider placing low-capacitance ESD protection device to protect LE940B6 against ESD strikes.
If an ESD protection should be added, the suggested connectivity is as follows:
Figure 15: ESD Protection for USB2.0
8.2.
Serial Ports
The serial port is typically a secondary interface between the LE940B6 module and OEM
hardware. The following serial ports are available on the module:
•
Modem Serial Port 1 (Main)
•
Modem Serial Port 2 (Auxiliary)
•
Modem Serial Port 3 (GNSS)
Several serial port configurations can be designed for the OEM hardware. The most common are:
•
RS232 PC com port
•
Microcontroller UART @ 1.8V (Universal Asynchronous Receive Transmit)
•
Microcontroller UART @ 3.3V/5V or other voltages different from 1.8V
Depending on the type of serial port on OEM hardware, level translator circuits may be needed to
make the system operate. The only configuration that does not need level translation is the 1.8V
UART. The LE940B6 UART has CMOS levels as described in Section 4.3.1, 1.8V Standard GPIOs.
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8.2.1.
Modem Serial Port 1
Serial Port 1 is a +1.8V UART, having all the 8 RS232 signals. It differs from the PC-RS232 in the
signal polarity (RS232 is reversed) and levels. Table 26 lists the signals of LE940B6 Serial Port 1.
Table 26: Modem Serial Port 1 Signals
RS232 Pin #
Signal
Pad No.
Name
Usage
DCD DCD_UART
AE18
Data Carrier
Detect
Output from LE940B6 that
indicates carrier presence
RXD TX_UART
AF19
Transmit line
*see Note
Output transmit line of LE940B6
UART
TXD RX_UART
AH19
Receive line
*see Note
Input receive line of LE940B6 UART
DTR DTR_UART
AC18
Data Terminal
Ready
Input to LE940B6 that controls the
DTE READY condition
DSR DSR_UART
AG18
Data Set Ready
Output from LE940B6 that
indicates that the module is ready
RTS RTS_UART
AA18
Request to Send
Input to LE940B6 controlling the
Hardware flow control
CTS CTS_UART
AK19
Clear to Send
Output from LE940B6 controlling
the Hardware flow control
RI RI_UART
AJ18
Ring Indicator
Output from LE940B6 indicating
the Incoming call condition
NOTE:
To avoid a back-powering effect, it is recommended to avoid having any HIGH logic level signal
applied to the digital pins of the module when it is powered OFF or during an ON/OFF transition.
NOTE:
For minimum implementations, only the TXD and RXD lines need be connected. The other lines
can be left open provided a software flow control is implemented.
NOTE:
According to V.24, Rx/Tx signal names refer to the application side; therefore, on the LE940B6
side, these signal are in the opposite direction: TXD on the application side will be connected to
the receive line (here named TXD/ RX_UART) of the LE940B6 serial port and vice versa for Rx.
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8.2.2.
Modem Serial Port 2
On the LE940B6, Serial Port 2 is a +1.8V UART with Rx and Tx signals only.
Table 27 lists the signals of the LE940B6 Serial Port 2.
Table 27: Modem Serial Port 2 Signals
PAD
Signal
I/O
Function
Type
AB19
TXD_AUX
Auxiliary UART (Tx Data to DTE)
1.8V
AD19
RXD_AUX
Auxiliary UART (Rx Data to DTE)
1.8V
COMMENT
NOTE:
To avoid a back-powering effect, it is recommended to avoid having any HIGH logic level signal
applied to the digital pins of the module when it is powered OFF or during an ON/OFF transition.
NOTE:
The Auxiliary UART is used as the SW main debug console. It is required to place test points on
this interface even if not used.
8.2.3.
Modem Serial Port 3
Serial port 3 is a +1.8V UART with all 4 RS232 signals. It differs from the PC-RS232 in the signal
polarity (RS232 is reversed) and levels. Table 28 lists the signals of the LE940B6 Serial Port 3.
Table 28: Modem Serial Port 3 Signals
PAD
Signal
I/O
Function
Type
AM9
UART3_TXD
Serial data input (TXD) from DTE
1.8V
AM11
UART3_RXD
Serial data output (RXD) to DTE
1.8V
AM13
UART3_RTS
Input for Request to Send (RTS) from DTE
1.8V
AM15
UART3_CTS
Output for Clear to Send (CTS) to DTE
1.8V
Comment
NOTE:
To avoid a back-powering effect, it is recommended to avoid having any HIGH logic level signal
applied to the digital pins of the module when it is powered OFF or during an ON/OFF transition.
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8.2.4.
RS232 Level Translation
To interface the LE940B6 with a PC COM port or an RS232 (EIA/TIA-232) application, a level
translator is required. This level translator must perform the following actions:
•
Invert the electrical signal in both directions
•
Change the level from 0/1.8V to +15/-15V
The RS232 UART 16450, 16550, 16650 & 16750 chipsets accept signals with lower levels on the
RS232 side (EIA/TIA-562), allowing a lower voltage-multiplying ratio on the level translator. Note
that the negative signal voltage must be less than 0V and hence some sort of level translation is
always required.
The simplest way to translate the levels and invert the signal is by using a single chip-level
translator. There are a multitude of them, differing in the number of drivers and receivers and in
the levels (be sure to get a true RS232 level translator, not a RS485 or other standards).
By convention, the driver is the level translator from the 0-1.8V UART to the RS232 level. The
receiver is the translator from the RS232 level to 0-1.8V UART. To translate the whole set of
control lines of the UART, the following is required:
•
2 drivers
•
2 receivers
Warning:
The digital input lines, operating at 1.8V CMOS levels, have absolute maximum input voltage of
2.0V. The level translator IC outputs on the module side (i.e. LE940B6 inputs) will cause
damage to the module inputs if the level translator is powered with +3.8V power.
So the level translator IC must be powered from a dedicated +1.8V power supply.
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As an example of RS232 level adaption circuitry could use a MAXIM transceiver (MAX218). In this
case, the chipset is capable of translating directly from 1.8V to the RS232 levels (Example on 4
signals only).
Figure 16: RS232 Level Adaption Circuitry Example
NOTE:
In this case, the length of the lines on the application must be taken into account to avoid
problems in the case of High-speed rates on RS232.
The RS232 serial port lines are usually connected to a DB9 connector as shown in Figure 17. Signal
names and directions are named and defined from the DTE point of view.
Figure 17: RS232 Serial Port Lines Connection Layout
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8.3.
Peripheral Ports
In addition to the LE940B6 serial ports, the LE940B6 supports the following peripheral ports:
8.3.1.
•
SPI – Serial Peripheral Interface
•
I2C - Inter-integrated circuit
•
Ethernet – Ethernet PHY Interface
SPI – Serial Peripheral Interface
The LE940B6 SPI supports the following:
•
Master Mode only
•
1.8V CMOS level
•
Up to 26 MHz clock rate
NOTE:
SPI is supported only on the Linux side.
The LE940B6 module supports Master mode only and cannot be configured as Slave mode.
Table 29: SPI Signals
PAD
Signal
I/O
Function
Type
P19
SPI_CLK
SPI clock output
1.8V
M19
SPI_MISO
SPI data Master input Slave output
1.8V
K19
SPI_MOSI
SPI data Master output Slave input
1.8V
N18
SPI_CS
SPI chip-select output
1.8V
Comment
Figure 18: SPI Signal Connectivity
LE940B6 (Master)
Host (Slave)
SPI_CS
SPI_CS
SPI_CLK
SPI_CLK
SPI_MOSI
SPI_MOSI
SPI_MISO
SPI_MISO
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8.3.2.
I2C - Inter-integrated Circuit
The LE940B6 I2C is an alternate function of GPIO 1-15 pins. Available only from Modem side as
SW emulation of I2C on GPIO lines. Any GPIO can be configured as SCL or SDA. LE940B6 supports
I2C Master Mode only.
NOTE:
SW emulated I2C on GPIO lines is supported only from the modem side. For more information,
refer to Ref 1: LE940B6 AT Command Reference Guide for command settings.
8.4.
Ethernet Interface
The LE940B6 has an integrated Ethernet interface to an external Ethernet PHY supporting 10M /
100M and 1G speed modes via a RGMII interface.
The Ethernet interface is target to be compliant with the RGMII and RMII specifications. The
supported RGMII and RMII specification versions are:
•
RGMII: Version 1.3, dated 12/10/2000, supporting up to 1000 Mbps operation
•
RMII: Version 1.2, dated 03/20/1998, supporting up to 100 Mbps operation
NOTE:
Customer should carefully design the Ethernet interface depending on PHY chipset; Please
contact Telit R&D for more details and guidelines.
Table 30: Ethernet Interface
PAD
Signal
I/O
G14
MAC_MDC
G12
MAC_MDIO
V16
Function
Type
Management Data Clock
2.5/3.3V
I/O
Management Data I/O
2.5/3.3V
MAC_TXD[0]
RGMII or RMII TXD[0]
2.5/3.3V
T16
MAC_TXD[1]
RGMII or RMII TXD[1]
2.5/3.3V
R16
MAC_TXD[2]
RGMII TXD[2]
2.5/3.3V
N16
MAC_TXD[3]
RGMII TXD[3]
2.5/3.3V
L16
MAC_GTX_CLK
RGMII Transmit Clock
2.5/3.3V
G16
MAC_TXEN_ER
RGMII Transmit Enable /Error or
RMII Transmit Enable
2.5/3.3V
COMMENT
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PAD
8.5.
Signal
I/O
Function
Type
AL16
MAC_RXD[0]
RGMII or RMII RXD[0]
2.5/3.3V
AJ16
MAC_RXD[1]
RGMII or RMII RXD[1]
2.5/3.3V
AG16
MAC_RXD[2]
RGMII RXD[2]
2.5/3.3V
AE16
MAC_RXD[3]
RGMII RXD[3]
2.5/3.3V
AC16
MAC_RX_CLK
RGMII Receive Clock
2.5/3.3V
X16
MAC_RXDV_ER
RGMII Receive Data Available/Error
or RMII Receive Error
2.5/3.3V
G10
ETH_INT_N
Ethernet PHY Interrupt
2.5/3.3V
G8
ETH_RST_N
Ethernet PHY Reset Output
2.5/3.3V
COMMENT
Audio Interface
The LE940B6 module supports analog and digital audio interfaces.
8.5.1.
Analog Audio
The LE940B6 module provides an analog audio interface; a single differential input for the audio
to be transmitted (Uplink), and a balanced output for the received audio (Downlink). The analog
interface is on the following pins:
Table 31: Analog Audio Signals
PAD
Signal
I/O
Function
Type
B5
EAR1_MT+
AO
Earphone signal output, phase +
Audio
A4
EAR1_MT-
AO
Earphone signal output, phase -
Audio
B3
MIC1_MT+
AI
Microphone signal input, phase +
Audio
A2
MIC1_MT-
AI
Microphone signal input, phase -
Audio
G6
MICBIAS
AO
Microphone bias is 1.9~2.2V
Power
Comments
For more details, Application Note will be prepared for the Audio Settings.
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8.5.2.
Digital Audio
The LE940B6 module can be connected to an external codec through the digital interface.
The product provides a single Digital Audio Interface (DVI) on the following pins:
Table 32: Digital Audio Interface (DVI) Signals
8.6.
PAD
Signal
I/O
Function
Type
Comments
D11
DVI_WA0
Digital Audio Interface (WA0)
B-PD 1.8V
PCM_SYNC
C8
DVI_RX
Digital Audio Interface (RX)
B-PD 1.8V
PCM_DIN
D9
DVI_TX
Digital Audio Interface (TX)
B-PD 1.8V
PCM_DOUT
C10
DVI_CLK
Digital Audio Interface (CLK)
B-PD 1.8V
PCM_CLK
General Purpose I/O
The general-purpose I/O pads can be configured to act in three different ways:
•
Input
•
Output
•
Alternative function (internally controlled)
Input pads can only be read, reporting digital values (high / low) present at the reading time.
Output pads can only be written or queried and set values on the pad output. Alternative function
can be internally controlled by LE940B6 firmware and act according to the implementation.
The type of GPIO can be set to Open-drain signaling; default type is CMOS mode.
Table 33: GPIOs
PAD
Signal
I/O
Function
Type
Drive Strength
F9
GPIO_01
I/O
Configurable GPIO
CMOS 1.8V
1 mA
E10
GPIO_02
I/O
Configurable GPIO
CMOS 1.8V
1 mA
F11
GPIO_03
I/O
Configurable GPIO
CMOS 1.8V
3 mA
E12
GPIO_04
I/O
Configurable GPIO
CMOS 1.8V
3 mA
F13
GPIO_05
I/O
Configurable GPIO
CMOS 1.8V
1 mA
E14
GPIO_06
I/O
Configurable GPIO
CMOS 1.8V
3 mA
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PAD
Signal
I/O
Function
Type
Drive Strength
R18
GPIO_07
I/O
Configurable GPIO
CMOS 1.8V
3 mA
S19
GPIO_08
I/O
Configurable GPIO
CMOS 1.8V
3 mA
U19
GPIO_09
I/O
Configurable GPIO
CMOS 1.8V
3 mA
W19
GPIO_10
I/O
Configurable GPIO
CMOS 1.8V
3 mA
L18
GPIO_11
I/O
Configurable GPIO
CMOS 1.8V
3 mA
J18
GPIO_12
I/O
Configurable GPIO
CMOS 1.8V
3 mA
AN4
GPIO_20
I/O
Configurable GPIO
CMOS 1.8V
3 mA
H1
GPIO_21
I/O
Configurable GPIO
CMOS 1.8V
3 mA
K1
GPIO_22
I/O
Configurable GPIO
CMOS 1.8V
4 mA
NOTE:
To avoid a back-powering effect, it is recommended to avoid having any HIGH logic level signal
applied to the digital pins of the module when it is powered OFF or during an ON/OFF transition.
NOTE:
LE940B6 GPIOs can also be used as alternate I2C function. Refer to Section 8.3.2, I2C - Interintegrated Circuit.
8.6.1.
Using a GPIO Pad as Input
GPIO pads, when used as inputs, can be connected to a digital output of another device and
report its status, provided this device has interface levels compatible with the 1.8V CMOS levels
of the GPIO.
If the digital output of the device is connected with the GPIO input, the pad has interface levels
different from the 1.8V CMOS. It can be buffered with an open collector transistor with a 10 kΩ
pull-up resistor to 1.8V.
8.6.2.
Using a GPIO Pad as Output
GPIO pads, when used as outputs, can drive 1.8V CMOS digital devices or compatible hardware.
When set as outputs, the pads have a push-pull output, and therefore the pull-up resistor can be
omitted.
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Figure 19: GPIO Output Pad Equivalent Circuit
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9.
Miscellaneous Functions
9.1.
Indication of Network Service Availability
The STAT_LED pin status shows information on the network service availability and call status.
In the LE940B6 module, the STAT_LED usually needs an external transistor to drive an external
LED.
The status indicated in Table 34 is configurable. Refer to Ref 1: LE940B6 AT Command Reference
Guide for the full description of this function.
Table 34: Network Service Availability Indication
LED Status
Device Status
Permanently off
Device off
Fast blinking (Period depends on network condition)
Registered with power saving
Slow blinking (Period 3s, Ton 1s)
Registered with full service
Permanently on
A call is active
Figure 20: Status LED circuit example
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9.2.
RTC – Real Time Clock
The VRTC pin is used to power the RTC only when the main battery voltage level is too low or
missing.
9.3.
VAUX Power Output
A regulated power supply output is provided to supply small devices from the module. This
output is active when the module is ON and goes OFF when the module is shut down. The
operating range characteristics of the supply are as follows:
Table 35: Operating Range – VAUX Power Supply
Min
Output voltage
Typical
1.75V
1.80V
Max
1.85V
Output current
100 mA
Output bypass capacitor (within the module)
1 μF
9.4.
ADC Converter
9.4.1.
Description
The LE940B6 module provides three on-board 12-bit Analog to Digital converters. Each ADC reads
the voltage level applied on the relevant pin, converts it and stores it into a 16-bit word.
Table 36: ADC Parameters
Min
9.4.2.
Max
Units
Input voltage range
1.2
Volt
AD conversion
12
bits
Using the ADC Converter
An AT command is available to use the ADC function.
The command is AT#ADC=1,2. The read value is expressed in mV.
Refer to Ref 1: LE940B6 AT Command Reference Guide for the full description of this function.
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9.5.
Using the Temperature Monitor Function
The Temperature Monitor supports temperature monitoring by giving periodic temperature
indications, to execute some function at extreme state. If properly set (see the #TEMPMON
command in the Ref 1: LE940B6 AT Command Reference Guide), it raises a GPIO to High Logic
level when the maximum temperature is reached.
9.6.
Fuel Gauge (TBD)
The LE940B6 module can optionally support an external Fuel Gauge solution.
In this case, an external IC that is capable of measuring the current flow in and out of the module
must be added on the carrier board.
Figure 21 shows an example of a typical connectivity of such an external fuel gauge to the
LE940B6 module.
Detailed design - TBD
Figure 21: Fuel Gauge Connectivity Example
9.7.
eFuse
The LE940B6 needs 1.8 +/- 0.05V applied on pad VPP(H17) for eFuses being programmed.
The fuse voltage should be applied to VPP(H17) prior to the fuse script being started, and should
be removed after the fuse operation has been completed.
Warning:
Fuse voltage must never be supplied when the module is not powered up.
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10.
Mounting the Module on your Board
10.1.
General
The LE940B6 module is designed to be compliant with a standard lead-free soldering process as
defined in JESD22b102d, table 3b. The number of reflows must not exceed two. This limits Tmax
to 245 °C.
10.2.
Finishing & Dimensions
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10.3.
Recommended Footprint for the Application
Figure 22 shows the top view of the module, which has 334 pads (dimensions are in mm).
To facilitate replacing the LE940B6 module if necessary, it is suggested to design the application
board with a 1.5 mm placement inhibit area around the module. These regions are highlighted in
Figure 22.
It is also suggested, as a common rule for an SMT component, to avoid having a mechanical part
of the application board in direct contact with the module.
NOTE:
In the customer application, the region marked as INHIBIT WIRING in Figure 22 must be clear of
signal wiring or ground polygons.
Figure 22: Application Module Top View
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10.4.
Stencil
Stencil’s apertures layout can be the same as the recommended footprint (1:1). The suggested
thickness of stencil foil is greater than 120 µm.
10.5.
PCB Pad Design
The solder pads on the PCB are recommended to be of the Non Solder Mask Defined (NSMD)
type.
Figure 23: PCB Pad Design
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10.6.
Recommendations for PCB Pad Dimensions (mm)
Figure 24: PCB Pad Dimensions
It is not recommended to place around the pads a via or micro-via that is not covered by solder
resist in an area of 0.3 mm unless it carries the same signal as the pad itself (see Figure 25).
Figure 25: Inhibit Area for Micro-via
Holes in pad are allowed only for blind holes and not for through holes.
Table 37: Recommendations for PCB Pad Surfaces
Finish
Electro-less Ni / Immersion Au
Layer Thickness (um)
3-7 / 0.05-0.15
Properties
Good solder ability
protection, high shear force
values
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The PCB must be able to resist the higher temperatures, which occur during the lead-free process.
This issue should be discussed with the PCB-supplier. Generally, the wettability of tin-lead solder
paste on the described surface plating is better compared to lead-free solder paste.
10.7.
Solder Paste
We recommend using only “no clean” solder paste to avoid the cleaning of the modules after
assembly.
10.7.1.
Solder Reflow
Figure 26 shows the recommended solder reflow profile.
Figure 26: Solder Reflow Profile
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Table 38: Solder Profile Characteristics
Profile Feature
Average ramp-up rate (TL to TP)
Pb-Free Assembly
3°C/second max
Preheat
– Temperature min (Tsmin)
150°C
– Temperature max (Tsmax)
200°C
– Time (min to max) (ts)
60-180 seconds
Tsmax to TL
– Ramp-up rate
3°C/second max
Time maintained above:
– Temperature (TL)
217°C
– Time (tL)
60-150 seconds
Peak temperature (Tp)
245 +0/-5°C
Time within 5°C of actual peak
10-30 seconds
Temperature (tp)
Ramp-down rate
6°C/second max
Time 25°C to peak temperature
8 minutes max
NOTE:
All temperatures refer to topside of the package, measured on the package body surface.
Warning:
The LE940B6 module withstands one reflow process only.
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11.
Application Guide
11.1.
Debug of the LE940B6 Module in Production
To test and debug the mounting of the LE940B6 module, we strongly recommend to add several
test pads on the application board design for the following purposes:
•
Checking the connection between the LE940B6 itself and the application
•
Testing the performance of the module by connecting it with an external computer
Depending on the customer application, these test pads include, but are not limited to the
following signals:
•
TXD
•
RXD
•
ON_OFF_N
•
SHUTDOWN_N
•
RESET_N
•
GND
•
VBATT
•
VAUX/PWRMON
•
TXD_AUX
•
RXD_AUX
•
USB_VBUS
•
USB_D+
•
USB_D-
•
Signals for analysis
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11.2.
Bypass Capacitor on Power Supplies
When a sudden voltage step is asserted to or a cut from the power supplies, the steep transition
causes some reactions such as overshoot and undershoot. This abrupt voltage transition can
affect the device causing it to not operate or to malfunction.
Bypass capacitors are needed to alleviate this behavior. The behavior can appear differently
depending on the various applications. Customers must pay special attention to this issue when
they design their application board.
The length and width of the power lines must be considered carefully and the capacitance of the
capacitors must be selected accordingly.
The capacitor will also prevent ripple of the power supplies and the switching noise caused in
TDMA systems.
Especially, a suitable bypass capacitor must be mounted on the following lines on the application
board:
•
VBATT & VBATT_PA (Pads AP17,AP19,AR18,AR20,AS17,AS19,AT18,AU17,AU19,AT20)
Recommended values are:
•
100 uF for VBATT & VBATT_PA
Customers must still consider that the capacitance mainly depends on the conditions of their
application board.
Generally, more capacitance is required when the power line is longer.
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11.3.
SIM Interface
This section presents the recommended schematics for the design of SIM interfaces on the
application boards. The LE940B6 supports two external SIM interfaces.
11.3.1.
SIM Schematic Example
Figure 27 illustrates in particular how to design the application side, and what values the
components should have.
Figure 27: SIM Schematics
NOTE:
An external pull-up resistor on SIMIO is not required.
The LE940B6 module contains an internal pull-up resistor on SIMIO.
Table 39 lists the values of C1 to be adopted with the LE940B6 product:
Table 39: SIM Interface – C1 Range
Product P/N
LE940B6
C1 Range (nF)
100 nF
Refer to the following document for details:
•
Ref 4: SIM Integration Design Guide
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11.4.
EMC Recommendations
All LE940B6 signals are provided with some EMC protection. Nevertheless, the accepted level
differs according to the specific pin. Table 40 lists the characteristics.
Table 40: EMC Recommendations
Pad
Signal
I/O
Antenna
pads
I/O
Function
Contact
Air
Antenna
AD1, AU9
Antenna pads
± 4 KV
± 8 KV
All other pins have the following characteristics:
•
HBM JESD22-A114-B ± 1000 V
•
CDM JESD22-C101-C ± 250 V
Warning:
Do not touch without proper electrostatic protective equipment. The product must be handled
with care, avoiding any contact with the pins because electrostatic discharge may damage the
product.
11.5.
Download and Debug Port
This section provides recommendations for the design of the host system used to download or
upgrade the Telit software and to debug the LE940B6 module when it is already mounted on a
host system.
•
For downloading or upgrading the Telit software
In the LE940B6 module, firmware updates by the host are only possible via USB and not via
UART.
So even if USB interface is not used, it is still highly recommended to place an optional USB
connector on the application board.At the minimum, test points of the USB signals are
required to enable SW update.
•
For debugging of the LE940B6 module
USB, Auxiliary UART and JTAG interfaces can be used for debugging the LE940B6 module.
Even if USB or JTAG are not used for debugging, it is recommended to have at least the
Auxiliary UART pins exposed to outside for debugging purposes.
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11.6.
Antenna Detection
The LE940B6 module provides an antenna detection application.
Many automotive applications require to detect if the antenna is shorted to ground or the battery
of the vehicle for fault tracing. Basically, antenna detection is performed by means of its DC
characteristics, splitting the DC and RF paths.
Refer to Telit 80000NT10002a - Antenna Detection Application Note.
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12.
Packing System
The LE940B6 module is packed on trays.
The tray is JEDEC compliant, injection molded antistatic Modified Polyphenylene ether (MPPO). It
has good thermal characteristics and can withstand the standard baking temperature of up to
125°C, thereby avoiding the need of handling the modules if baking is required. The trays are
rigid, thus providing mechanical protection against transport stress. In addition, they are reusable and so environmentally sustainable.
There are 2 (two) antistatic rubber bands that enclose each envelope.
The carton box is rigid, thus offering mechanical protection. The carton box has one flap across
the entire top surface. It is sealed with tape along the edges of the box.
Table 41: Tray Packing
Modules per
Tray
21
Trays per
Envelope
5+ 1 empty
Modules per
Envelope
105
Envelopes per
Carton Box
Modules per
Box
420
Table 42: Packing Quantities
Order Type
Quantity
Minimum Order Quantity (MOQ)
21
Standard Packing Quantity (SPQ)
420
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Each tray contains 24 modules as shown in Figure 28.
Figure 28: Tray Packing
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12.1.
Tray Drawing
The Telit LE940B6 is packaged on trays. Each tray contains 21 pieces with the following
dimensions:
Figure 29: Tray Drawing
Warning:
These trays can withstand a maximum temperature of 125°C
12.2.
Moisture Sensitivity
The LE940B6 module is a Moisture Sensitive Device Level 3, in accordance with standard
IPC/JEDEC J-STD-020. Observe all of the requirements for using this kind of components.
Calculated shelf life in sealed bag: 4 months at <40°C and <90% relative humidity (RH).
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13.
Conformity Assessment Issues
13.1.
FCC/IC Regulatory Notices
Manual Information to the End User
The OEM integrator has to be aware not to provide information to the end user regarding
how to install or remove this RF module in the user’s manual of the end product which
integrates this module. The end user manual shall include all required regulatory
information/warning as show in this manual.
CAN ICES-3(B)/ NMB-3(B)
Federal Communication Commission Interference Statement
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two
conditions: (1) This device may not cause harmful interference, and (2) this device must
accept any interference received, including interference that may cause undesired operation.
This device complies with Industry Canada’s licence-exempt RSSs. Operation is subject to the
following two conditions:
(1) This device may not cause interference; and
(2) This device must accept any interference, including interference that may cause undesired
operation of the device.
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio
exempts de licence. L'exploitation est autorisée aux deux conditions suivantes:
(1) l'appareil ne doit pas produire de brouillage, et
(2) l'utilisateur de l'appareil doit accepter tout brouillage radioélectrique subi, même si le
brouillage est susceptible d'en compromettre le fonctionnement."
This equipment has been tested and found to comply with the limits for a Class B digital
device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable
protection against harmful interference in a residential installation. This equipment
generates, uses and can radiate radio frequency energy and, if not installed and used in
accordance with the instructions, may cause harmful interference to radio communications.
However, there is no guarantee that interference will not occur in a particular installation. If
this equipment does cause harmful interference to radio or television reception, which can be
determined by turning the equipment off and on, the user is encouraged to try to correct the
interference by one of the following measures:
- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
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- Connect the equipment into an outlet on a circuit different from that to which the receiver is
connected.
- Consult the dealer or an experienced radio/TV technician for help.
Any changes or modifications not expressly approved by the party responsible for compliance
could void the user's authority to operate this equipment. This transmitter must not be colocated or operating in conjunction with any other antenna or transmitter.
Radiation Exposure Statement
This equipment complies with FCC/IC radiation exposure limits set forth for an uncontrolled
environment. This equipment should be installed and operated with minimum distance 20 cm
between the radiator & your body.
End Product Labeling
When the module is installed in the host device, the FCC/IC ID label must be visible through a
window on the final device or it must be visible when an access panel, door or cover is easily
re-moved. If not, a second label must be placed on the outside of the final device that
contains the following text: “Contains FCC ID: RI7LE940B6NA”, “Contains IC: 5131ALE940B6NA.” The grantee's FCC/IC ID can be used only when all FCC/IC compliance
requirements are met.
This device is intended only for OEM integrators under the following conditions:
(1) The antenna must be installed such that 20 cm is maintained between the antenna and
users,
(2) The transmitter module may not be co-located with any other transmitter or antenna.
(3) To comply with FCC/IC regulations limiting both maximum RF output power and human
exposure to RF radiation, the maximum antenna gain including cable loss in a mobile
exposure condition must not exceed:
3.0 dBi in Cellular band
3.5 dBi in PCS band
3.5 dBi in AWS band
3.0 dBi in 700 MHz band
4.0 dBi in 2500MHz band
In the event that these conditions cannot be met (for example certain laptop configurations
or co-location with another transmitter), then the FCC/IC authorization is no longer
considered valid and the FCC/IC ID cannot be used on the final product. In these
circumstances, the OEM integrator will be responsible for re-evaluating the end product
(including the transmitter) and obtaining a separate FCC/IC authorization.
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14.
Safety Recommendations
READ CAREFULLY
Be sure that the use of this product is allowed in your country and in the environment required.
The use of this product may be dangerous and must 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 the responsibility of the user to enforce the country regulations and the specific environment
regulations.
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 correct wiring of the
product. The product must be supplied with a stabilized voltage source and the wiring conform to
the security and fire prevention regulations.
The product must be handled with care, avoiding any contact with the pins because electrostatic
discharges may damage the product itself. The same caution must be taken for the SIM, checking
carefully the instructions for its use. Do not insert or remove the SIM when the product is in
power saving mode.
The system integrator is responsible for the functioning of the final product; therefore, care must
be taken of the external components of the module, as well as of any project or installation issue,
because of the risk of disturbing the cellular network or external devices or having any impact on
safety. Should there be any doubt, refer to the technical documentation and the regulations in
force.
Every module must be equipped with a proper antenna with the specified characteristics. The
antenna must be installed with care to avoid any interference with other electronic devices and
must be installed with the guarantee of a minimum 20 cm distance from a human body. If this
requirement cannot be satisfied, the system integrator must assess the final product against the
SAR regulation.
The European Community provides some Directives for electronic equipment introduced on the
market. All the relevant information is available on the European Community website:
http://europa.eu.int/comm/enterprise/rtte/dir99-5.htm
The text of the Directive 99/05 regarding telecommunication equipment is available, while the
applicable Directives (Low Voltage and EMC) are available at:
http://europa.eu.int/comm/enterprise/rtte/dir99-5.htm
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15.
Document History
Table 43: Document Revision History
Revision
Rev. 1.8
Date
2017-03-10
Changes
Sec. 5.1: Added Note
Sec. 5.3: Added Note
Sec. 6.1: Updated table 21 LE940B6 Current Consumption
Sec. 7.5: Added new sub chapter
Sec. 13: Added Conformity Assessment Issues
Rev. 1.7
2017-01-25
Sec. 5: Figures and charts revised
Sec. 6: Current consumption table updated
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Revision
v. 1.6
Date
2016-11-15
Changes
Official Release
Sec. 2.7: Updated the Mechanical Specifications
Sec. 3.1: Added VPP pin for eFuse
Sections 3.1, 3.3, 4.3.6, 8: SD / MMC interfaces were deleted - they
are not supported by the chipset vendor.
Sec. 5: Updated the specifications and charts of Hardware
Commands (Boot-up/Shutdown time, On/Shutdown key hold
time)
Sec. 5.1: Updated the Power on Hold time.
Sec. 5.3.2: Updated the section of Hardware Shutdown
Sec. 5.3.3: Updated the Unconditional reset Hold time.
Sec. 6.1: Updated Table 21 – Current Consumption in various
modes
Sec. 6.2.2: Updated the Thermal Design Guidelines
Sec. 8.1: USB 3.0 interface is deleted - it is not supported by the
chipset vendor.
Sec. 8.3.3: WiFi (SDIO) is deleted - it is not supported by the
chipset vendor.
Sec. 8.6: Table 35 (Additional GPIO) is deleted - it is not supported
by the chipset vendor.
Sec. 9.7: eFuse section was added.
Sec. 11.4: Updated the EMC Recommendations
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Revision
Rev. 1.5
Date
2016-09-20
Changes
(Interim version)
Page 2, Table 1: Updated the Applicability table
Sec. 2: Updated the General Product Description
Sec. 2.5.1, 2.5.2: Updated the RF bands tables
Sec. 3.1: Updated the pin description in the Pin-out table
Sec. 4.3: Added tables of logic level specifications
Sec. 5: Updated the Turning On and Off trigger times, figures and
flow charts
Sec. 6.1: Added Table 20 - Power Supply Requirements
Sec. 8: Gathered the description of all hardware interfaces into
this section
Sec. 8.1: Updated note and figure for USB
Sec: 8.2: Various updates about the Serial Ports
Sec. 8.4: Updates about the Ethernet interface
Sec. 8.6: Updated the GPIO drive strength
Sec 11.5: Updated the Download and Debug Port section
Sec 12: Updated Packing System information
Rev. 1.3
2016-06-22
(Interim version)
Sec. 2.4.1: The Storage Temperature range is –40°C ~ +95°C
Sec. 3.1: Corrected and Updated the Pin out table
(Added GPIO_11/12, MIC_BIAS, VRTC, Removed GPIO_23/24)
Sec. 4: Added electrical specifications
Sec. 9.4.1: Modified the ADC table
Sec. 11.4: Added ESD specifications
Preliminary
2016-03-15
First issue
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