Simcom 201710 LTE-FDD/HSPA MODULE User Manual 04 SIM7600A H User Manual V1 01 20171124

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Compliance Information:
FCC Compliance 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 must accept any interference received, including interference that may cause
undesired operation. Product that is a radio transmitter is labeled with FCC ID.
FCC Caution:
(1)Exposure to Radio Frequency Radiation. This equipment must be installed and operated in
accordance with provided instructions and 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 collocated or
operating in conjunction with any other antenna or transmitter. End-users and installers must be
provided with antenna installation instructions and transmitter operating conditions for satisfying RF
exposure compliance.
(2)Any changes or modifications not expressly approved by the grantee of this device could void the
user's authority to operate the equipment.
(3)This Transmitter must not be co-located or operating in conjunction with any other antenna or
transmitter.
(4)Changes or modifications to this unit not expressly approved by the party responsible for
compliance could void the user authority to operate the equipment.
(5) the modules FCC ID is not visible when installed in the host, or (6) if the host is marketed so that
end users do not have straight forward commonly used methods for access to remove the module so
that the FCC ID of the module is visible; then an additional permanent label referring to the enclosed
module: Contains Transmitter Module FCC ID: UDV-201710 or Contains FCC ID: UDV-201710
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Document Title
SIM7600A-H_User Manual
Version
V1.00
Date
2017-11-24
Status
Released
Document Control ID
SIM7600A-H_User Manual_V1.00
General Notes
SIMCom offers this information as a service to its customers to support the application and
engineering efforts that use the products designed by SIMCom. The information provided is based
on the requirements specifically from the customers. SIMCom has not undertaken any independent
search for additional relevant information, including any information that may be in the customer’s
possession. Furthermore, the system validation of the product designed by SIMCom within a larger
electronic system remains the responsibility of the customer or the customer’s system integrator.
All specifications supplied herein are subject to change without notice.
Copyright
This document contains the proprietary technical information which is the property of SIMCom
Limited, copying of this document, giving it to others, the using or communication of the contents
thereof are forbidden without the official authority by SIMCom. Offenders are liable to the
payment of the damages. All rights are reserved in the event of grant of a patent or the registration
of a utility model or design. All specifications supplied herein are subject to change without notice
Copyright © SIMCom Wireless Solutions Co., Ltd. 2017
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Contents
Contents .............................................................................................................................................4
Table Index ........................................................................................................................................6
Figure Index ......................................................................................................................................7
Revision History ................................................................................................................................8
Introduction ................................................................................................................................9
1.1 Product Outline .....................................................................................................................9
1.2 Hardware Interface Overview ...............................................................................................9
1.3 Hardware Block Diagram......................................................................................................9
1.4 Functional Overview ...........................................................................................................10
Package Information ...............................................................................................................12
2.1 Pin Assignment Overview ...................................................................................................12
2.2 Pin Description ....................................................................................................................14
2.3 Mechanical Information ......................................................................................................18
2.4 Footprint Recommendation .................................................................................................19
Interface Application ...............................................................................................................20
3.1 Power Supply ......................................................................................................................20
3.1.1 Power supply Design Guide .........................................................................................20
3.1.2 Recommended Power Supply Circuit ..........................................................................21
3.1.3 Voltage Monitor ............................................................................................................22
3.2 Power on/Power off/Reset Function....................................................................................22
3.2.1 Power on.......................................................................................................................22
3.2.2 Power off ......................................................................................................................23
3.2.3 Reset Function ..............................................................................................................24
3.3 UART Interface ...................................................................................................................25
3.3.1 UART Design Guide ....................................................................................................25
3.3.2 RI and DTR Behavior...................................................................................................27
3.4 USB Interface ......................................................................................................................27
3.4.1 USB Application Guide ................................................................................................28
3.5 USIM Interface....................................................................................................................28
3.5.1 USIM Application Guide..............................................................................................29
3.5.2 SIM Card Design Guide ...............................................................................................29
3.5.3 Recommended USIM Card Holder ..............................................................................30
3.6 PCM Interface .....................................................................................................................31
3.6.1 PCM Timing .................................................................................................................31
3.6.2 PCM Application Guide ...............................................................................................32
3.7 I2C Interface .......................................................................................................................33
3.7.1 I2C Design Guide .........................................................................................................33
3.8 Network Status ....................................................................................................................34
3.9 Operating Status Indication .................................................................................................34
3.10
Pin Multiplex Function ....................................................................................................34
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3.11
Other interface .................................................................................................................35
3.11.1
Sink Current Source ..................................................................................................35
3.11.2
ADC ..........................................................................................................................36
RF Specifications ......................................................................................................................37
4.1 WCDMA/LTE RF Specifications .......................................................................................37
4.2 WCDMA/LTE Antenna Design Guide................................................................................38
4.3 GNSS ..................................................................................................................................41
4.3.1 GNSS Technical specification ......................................................................................41
4.3.2 GNSS Application Guide .............................................................................................42
Electrical Specifications ...........................................................................................................44
5.1 Absolute Maximum Ratings................................................................................................44
5.2 Operating Conditions ..........................................................................................................44
5.3 Operating Mode ..................................................................................................................45
5.3.1 Operating Mode Definition ..........................................................................................45
5.3.2 Sleep Mode ...................................................................................................................46
5.3.3 Minimum Functionality Mode and Flight Mode ..........................................................46
5.4 Current Consumption ..........................................................................................................46
5.5 ESD Notes ...........................................................................................................................47
SMT Production Guide ...........................................................................................................48
6.1 Top and Bottom View of Module ........................................................................................48
6.2 Typical SMT Reflow Profile ...............................................................................................48
6.3 Moisture Sensitivity Level (MSL) ......................................................................................49
6.4 Stencil Foil Design Recommendation .................................................................................49
Packaging ..................................................................................................................................50
Appendix ..........................................................................................................................................52
A. Reference Design......................................................................................................................52
B. Coding Schemes and Maximum Net Data Rates over Air Interface.........................................53
C. Related Documents ...................................................................................................................55
D. Terms and Abbreviations..........................................................................................................57
E. Safety Caution...........................................................................................................................59
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Table Index
Table 1: SIM7600A-H frequency bands .............................................................................................................. 9
Table 2: General features ................................................................................................................................... 10
Table 3: Pin Definitions ..................................................................................................................................... 13
Table 4: IO parameters definition....................................................................................................................... 14
Table 5: Pin description...................................................................................................................................... 14
Table 6: VBAT Pins electronic characteristic ..................................................................................................... 20
Table 7: Recommended zener diode list............................................................................................................. 21
Table 8: Power on timing and electronic characteristic ...................................................................................... 23
Table 9: Power off timing and Electronic Characteristic.................................................................................... 24
Table 10: RESET pin electronic characteristic ................................................................................................... 25
Table 11: USIM Electronic characteristic in 1.8V mode (USIM_VDD=1.8V) .................................................. 28
Table 12: USIM Electronic characteristic 3.0V mode (USIM_VDD=2.95V) .................................................... 29
Table 13: Amphenol USIM Socket Pin Description ........................................................................................... 30
Table 14: PCM Format....................................................................................................................................... 31
Table 15: PCM Timing Parameters .................................................................................................................... 32
Table 16: NETLIGHT pin status ........................................................................................................................ 34
Table 17: Pin definition of the STATUS ............................................................................................................ 34
Table 18: Pin multiplex function list .................................................................................................................. 35
Table 19: Sink current electronic characteristic ................................................................................................. 35
Table 20: ADC Electronic Characteristics.......................................................................................................... 36
Table 21: Conducted transmission power .......................................................................................................... 37
Table 22: Operating frequencies ........................................................................................................................ 37
Table 23: Conducted receive sensitivity ............................................................................................................. 37
Table 24: Reference sensitivity (QPSK) ............................................................................................................ 37
Table 25: Trace Loss .......................................................................................................................................... 38
Table 26: Recommended TVS ........................................................................................................................... 39
Table 27: LNA requirements .............................................................................................................................. 43
Table 28: Absolute maximum ratings................................................................................................................. 44
Table 29: Recommended operating ratings ........................................................................................................ 44
Table 30: 1.8V Digital I/O characteristics* ........................................................................................................ 44
Table 31: Operating temperature ........................................................................................................................ 45
Table 32: Operating mode Definitions ............................................................................................................... 45
Table 33: Current consumption on VBAT Pins (VBAT=3.8V) .......................................................................... 47
Table 34: The ESD performance measurement table (Temperature: 25℃, Humidity: 45%) ............................. 47
Table 35: Moisture Sensitivity Level and Floor Life ......................................................................................... 49
Table 36: Tray size ............................................................................................................................................. 50
Table 37: Small Carton size ............................................................................................................................... 51
Table 38: Big carton size .................................................................................................................................... 51
Table 39: Coding schemes and maximum net data rates over air interface ........................................................ 53
Table 40: Related documents ............................................................................................................................. 55
Table 41: Terms and Abbreviations .................................................................................................................... 57
Table 42: Safety caution ..................................................................................................................................... 59
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Figure Index
Figure 1: SIM7600A-H Block Diagram............................................................................................................. 10
Figure 2: Pin assignment overview .................................................................................................................... 12
Figure 3: Dimensions (Unit: mm) ...................................................................................................................... 18
Figure 4: Footprint recommendation (Unit: mm) ............................................................................................... 19
Figure 5: Power supply application circuit......................................................................................................... 20
Figure 6: Linear regulator reference circuit ....................................................................................................... 21
Figure 7: Switching modepower supply reference circuit .................................................................................. 21
Figure 8: ReferencePower on/offCircuit ............................................................................................................ 22
Figure 9: Power on timing sequence .................................................................................................................. 23
Figure 10: Power off timing sequence ............................................................................................................... 24
Figure 11: Reference reset circuit ...................................................................................................................... 25
Figure 12: UART full modem ............................................................................................................................ 26
Figure 13: UART null Modem ........................................................................................................................... 26
Figure 14: Reference circuit of level shift .......................................................................................................... 26
Figure 15: RI behaviour（SMS and URC report） ........................................................................................... 27
Figure 16: RI behaviour（voice call） .............................................................................................................. 27
Figure 17: USB reference circuit ....................................................................................................................... 28
Figure 18: USIM interface reference circuit ...................................................................................................... 29
Figure 19: Amphenol SIM card socket .............................................................................................................. 30
Figure 20: PCM_SYNC timing.......................................................................................................................... 31
Figure 21: EXT codec to module timing ............................................................................................................ 31
Figure 22: Module to EXT codec timing ........................................................................................................... 32
Figure 23: Audio codec reference circuit ........................................................................................................... 33
Figure 24: I2C reference circuit ......................................................................................................................... 33
Figure 25: NETLIGHT reference circuit............................................................................................................ 34
Figure 26: ISINK reference circuit .................................................................................................................... 35
Figure 27: Antenna matching circuit (MAIN_ANT).......................................................................................... 38
Figure 28: Antenna matching circuit (DIV_ANT) ............................................................................................. 39
Figure 29: Antenna matching circuit (MAIN_ANT).......................................................................................... 41
Figure 30: Active antenna circuit ....................................................................................................................... 42
Figure 31: Passive antenna circuit (Default) ...................................................................................................... 42
Figure 32: Top and bottom view of Module ....................................................................................................... 48
Figure 33: The ramp-soak-spike Reflow Profile of Module............................................................................... 48
Figure 34: Packaging introduce ......................................................................................................................... 50
Figure 34: Module tray drawing introduce......................................................................................................... 50
Figure 36: Small carton drawing introduce ........................................................................................................ 51
Figure 37: Big carton drawing introduce ........................................................................................................... 51
Figure 38: Reference design .............................................................................................................................. 52
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Revision History
Data
Version
Description of change
Author
2017-11-24
V1.00
new
Shengwu.sun
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1 Introduction
This document describes the electronic specifications, RF specifications, interfaces, mechanical
characteristics and testing results of the SIMCom SIM7600A-H. With the help of this document
and other software application notes/user guides, users can understand and use modules to design
and develop applications quickly.
1.1
Product Outline
The SIM7600A-H support many air-interface standards, refer to the following table.
Table 1: SIM7600A-H frequency bands
Standard
WCDMA
LTE
Frequency
SIM7600A-H
BAND2

BAND5

LTE-FDD B2

LTE-FDD B4

LTE-FDD B12

With a smallphysical dimension of 30*30*2.9 mm and with the functionsintegrated, the Module
can meet almost any space requirement in users’ applications, such as smart phones, PDA’s,
industrial handhelds, machine-to-machine, vehicle applications, etc.
1.2
Hardware Interface Overview
The interfaces that are described in detail in the next chapters include:
● Power Supply
● USB Interface
● UART Interface
● USIM Interface
● GPIO
● ADC
● Power Output
● Current Sink Source
● PCM Interface
● I2C Interface
1.3
Hardware Block Diagram
The block diagram of the Module is shown in the figure below.
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GNSS Antenna
Main Antenna
DDR
AUX Antenna
NAND
Flash
GNSS RF
GSM/WCDMA
/LTE
RF FEM
WCDMA
/LTE
RF FEM
SMT Interface
Qualcomm
Chip
Baseband
RF
Transceiver
GSM/
WCDMA/LTE PA
USIM
UART
I2C
PCM
USB
GPIOs
Interrupt
ADC
Status LED
LDO
Sink Current Source
SYSTEM POWER
XO
19.2MHz
Power
Management
VBAT
Power On
Reset
VBAT
Figure 1: SIM7600A-H Block Diagram
1.4
Functional Overview
Table 2: General features
Feature
Implementation
Power supply
Single supply voltage 3.4～4.2V
Power saving
Current in sleep mode : <5mA
Radio frequency bands
Please refer to the table 1
WCDMA: Class 3 (0.25W)
LTE: Class 3 (0.25W)
Transmitting power
Data Transmission
Throughout
HSPA+: 5.76 Mbps(UL), 42 Mbps(DL)
LTE Category 4: 150 Mbps (DL)
LTE Category 4: 50 Mbps (UL)
Antenna
WCDMA /LTE main antenna
WCDMA /LTE auxiliary antenna
SMS
MT, MO, CB, Text and PDU mode
SMS storage: USIM card or ME(default)
Transmission of SMS alternatively over CS or PS.
USIM interface
Support identity card: 1.8V/ 3V
USIM application toolkit
Support SAT class 3, GSM 11.14 Release 98
Support USAT
Phonebook management
Support phonebook types: DC,MC,RC,SM,ME,FD,ON,LD,EN
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Audio feature
Support PCM interface
Only support PCM master mode and short frame sync, 16-bit linear data
formats
UART interface
A full modem serial port by default
Baud rate: 300bps to 4Mbps(default:115200bps)
Auto-bauding baud rate: 9600,19200,38400,57600,115200bps
Can be used as the AT commands or data stream channel.
Support RTS/CTS hardware handshake
Multiplex ability according to GSM 07.10 Multiplexer Protocol.
USB
USB 2.0 specification-compliant as a peripheral
Firmware upgrade USB
Firmware upgrade over USB interface
USB 2.0 specification-compliant as a peripheral
Physical characteristics
Weight:5.5g
Size:30*30*2.9mm
Temperature range
Normal operation temperature: -30°C to +80°C
Extended operation temperature: -40°C to +85°C*
Storage temperature -45°C to +90°C
*Note: Module is able to make and receive voice calls, data calls, SMS and make
WCDMA/HSPA+/LTE traffic in -40℃ ~ +85℃. The performance will be reduced slightly from
the 3GPP specifications if the temperature is outside the normal operating temperature range
and still within the extreme operating temperature range.
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2 Package Information
2.1
Pin Assignment Overview
All functions of the SIM7600A-H will be provided through 87 pads that will be connected to the
customers’ platform. The following Figure is a high-level view of the pin assignment of the
SIM7600A-H.
SIM7600A
(Top View)
Figure 2: Pin assignment overview
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Table 3: Pin Definitions
Pin No.
Pin name
Pin No.
Pin name
GND
GND
PWRKEY
RESET
GND
SPI_CLK
SPI_MISO
SPI_MOSI
SPI_CS
10
GND
11
USB_VBUS
12
USB_DN
13
USB_DP
14
GND
15
VDD_1V8
16
USB_ID
17
USIM_DATA
18
USIM_RST
19
USIM_CLK
20
USIM_VDD
21
SD_CMD
22
SD_DATA0
23
SD_DATA1
24
SD_DATA2
25
SD_DATA3
26
SD_CLK
27
SDIO_DATA1
28
SDIO_DATA2
29
SDIO_CMD
30
SDIO_DATA0
31
SDIO_DATA3
32
SDIO_CLK
33
GPIO3
34
GPIO6
35
HSIC_STROBE
36
HSIC_DATA
37
GND
38
VBAT
39
VBAT
40
GND
41
GND
42
NC (RESERVED)
43
GND
44
VDD_EXT
45
ISINK
46
ADC2
47
ADC1
48
SD_DET
49
STATUS
50
GPIO43*
51
NETLIGHT
52
GPIO41
53
USIM_DET
54
FLIGHTMODE
55
SCL
56
SDA
57
GND
58
GND
59
AUX_ANT
60
GND
61
GND
62
VBAT
63
VBAT
64
GND
65
GND
66
RTS
67
CTS
68
RXD
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69
RI
70
DCD
71
TXD
72
DTR
73
PCM_OUT
74
PCM_IN
75
PCM_SYNC
76
PCM_CLK
77
GND
78
GND
79
GNSS_ANT
80
GND
81
GND
82
MAIN_ANT
83
COEX1*
84
COEX2
85
BOOT_CFG0*
86
COEX3*
87
GPIO77
*Note: Before the normal power up, pin48 cannot be pulled up.
2.2
Pin Description
Table 4: IO parameters definition
Pin type
Description
PI
Power input
PO
Power output
AI
Analog input
AIO
Analog input/output
I/O
Bidirectional input /output
DI
Digital input
DO
Digital output
DOH
Digital output with high level
DOL
Digital output with low level
PU
Pull up
PD
Pull down
Table 5: Pin description
Pin No.
Default
status
VBAT
38,39,
62,63
PI
VDD_EXT
44
PO
Pin name
Description
Comment
Power supply
SIM7600A-H_User Manual_V1.00
Power supply, voltage range:
3.4～4.2V.
LDO power output for other
external circuits with Max
150mA current output. Its
output voltage is 0V by default.
14
If unused, keep it
open.
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VDD_1V8
15
GND
1,2,5,
10,14,37
,40,41,4
3,57,58,
60,61,64
,65,77,7
8,80,81
PO
（The voltage can be
configured to 2.8V by AT
command）.
1.8V SMPS output with Max
50mA current output for
external circuit, such as level
shift circuit.
If unused, keep it
open.
Ground
System Control
DI,PU
System power on/off control
input, active low.
The high voltage is
0.8V;
DI, PU
System reset control input,
active low.
RESET has been
pulled up to 1.8V via
40Kohm resistor
internally.
SD_CMD
21
DO
SDIO command
SD_DATA0
22
I/O
SD_DATA1
23
I/O
SD_DATA2
24
I/O
SD_DATA3
25
I/O
SD_CLK
26
DO
SDIO clock
PWRKEY
RESET
SD interface
If unused, keep them
open.
SDIO data
USIM interface
USIM_DATA
17
I/O,PU
USIM Card data I/O, which has
been pulled up via a 100KR
resistor to USIM_VDD
internally. Do not pull it up or
down externally.
USIM_RST
18
DO
USIM Reset
USIM_CLK
19
DO
USIM clock
20
PO
Power output for USIM card,
its output Voltage depends on
USIM card type automatically.
Its output current is up to
50mA.
SPI_CLK
DO
SPI clock output
SPI_MISO
DI
SPI master in/slave out data
USIM_VDD
All lines of USIM
interface should be
protected against
ESD.
SPI interface
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15
Only support SPI
master mode.
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SPI_MOSI
DO
SPI master out/slave in data
SPI_CS
DO
SPI chip-select output
USB_VBUS
11
DI,PD
Valid USB detection input with
3.0~5.25V detection voltage
USB_DN
12
I/O
Negative line of the differential,
bi-directional USB signal.
USB_DP
13
I/O
USB_ID
16
DI
Positive line of the differential,
bi-directional USB signal.
High-speed USB ID input
RTS
66
DOH
Request to send
CTS
67
DI,PU
Clear to Send
RXD
68
DI,PU
Receive Data
RI
69
DOH
Ring Indicator
DCD
70
DOH
Carrier detects
TXD
DTR
71
72
DOH
DI,PU
Transmit Data
DTE get ready
SCL
55
DO
I2C clock output
SDA
56
I/O
I2C data input/output
SDIO_DATA1
27
I/O
SDIO data1
SDIO_DATA2
28
I/O
SDIO data2
SDIO_CMD
29
DO
SDIO command
SDIO_DATA0
30
I/O
SDIO data0
SDIO_DATA3
31
I/O
SDIO data3
SDIO_CLK
32
DO
SDIO clock
HSIC interface
HSIC_STROB
35
DO
HSIC strobe wakeup
HSIC_DATA
36
I/O
HSIC data
PCM_OUT
73
DO
PCM data output.
PCM_IN
74
DI
PCM data input.
PCM_SYNC
75
DO
PCM data frame sync signal.
PCM_CLK
76
DO
PCM data bit clock.
51
DO
LED control output as network
status indication.
If unused, please keep
them open.
USB
Keep it open.
UART interface
If unused, keep them
open.
I2C interface
If unused, keep open,
or else pull them up
via 4.7KΩ resistors to
1.8V.
SDIO interface
For WLAN solution
Reserved
PCM interface
If unused, please keep
them open.
GPIO
NETLIGHT
SIM7600A-H_User Manual_V1.00
16
If unused, keep them
open.
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FLIGHTMODE
54
DI,PU
STATUS
49
DO
GPIO41
52
IO
Flight Mode control input.
High level(or open): Normal
Mode
Low level: Flight Mode
Operating status output.
High level: Power on and
firmware ready
Low level: Power off
GPIO
GPIO43
50
IO
GPIO
GPIO3
33
IO
GPIO
GPIO6
34
IO
GPIO
DO NOT PULL UP
GPIO43
DURING
NORMAL POWER
UP!
Default: GPIO
Optional: SD card detecting
input.
H: SD card is removed
L: SD card is inserted
Default: GPIO
Optional: USIM card detecting
input.
H: USIM is removed
L: USIM is inserted
SD_DET
48
IO
USIM_DET
53
IO
GPIO77
87
IO
GPIO
MAIN _ANT
82
AIO
MAIN antenna soldering pad
GNSS_ANT
79
AI
GNSS antenna soldering pad
AUX_ANT
59
AI
Auxiliary antenna soldering pad
ISINK
45
PI
Ground-referenced current sink.
ADC1
47
AI
Analog-digital converter input
ADC2
46
AI
Analog-digital converter input
COEX1
83
I/O
COEX2
84
I/O
COEX3
86
I/O
RF interface
Other interface
BOOT_CFG0
85
NC
42
DI,PD
SIM7600A-H_User Manual_V1.00
RF synchronizing between
Wi-Fi and LTE.
Boot configuration input.
Module will be forced into
USB download mode by
connect 85 pin to VDD_1V8
during power up.
If unused, please keep
them open.
If unused, keep them
open.
DO NOT PULL UP
COEX1 AND COEX2
DURING NORMAL
POWER UP!
Do place 2 test points
for debug.
DO NOT PULL UP
BOOT_CFG0
DURING NORMAL
POWER UP!
Keep it open
No connection.
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2.3
Mechanical Information
The following figure shows the package outline drawing of Module.
Figure 3: Dimensions (Unit: mm)
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2.4
Footprint Recommendation
Figure 4: Footprint recommendation (Unit: mm)
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3 Interface Application
3.1
Power Supply
On VBAT pads, a ripple current up to 2A typically, may cause voltage drop. Therefore, the power
supply for these pads must be able to provide sufficient current up to more than 2A in order to
avoid the voltage drop of more than 300mV.
Table 6: VBAT Pins electronic characteristic
Symbol
Description
VBAT
Module power voltage
3.4
3.8
IVBAT(peak)
Module power peak current in normal mode.
1.0
IVBAT(average)
Module power average current in normal mode
IVBAT(sleep)
Power supply current in sleep mode
IVBAT(power-off)
Module power current in power off mode.
3.1.1
Min.
Typ.
Max.
Unit
4.2
Please refer to the table 34
20
uA
Power supply Design Guide
Make sure that the voltage on the VBAT pins will never drop below 3.4V.
Note: If the power supply for BAT pins can support up to 2A, using a total of more than 220uF
capacitors is recommended, or else users must use a total of 1000uF capacitors, in order to avoid
the voltage drop of more than 300mV.
Some multi-layer ceramic chip (MLCC) capacitors (0.1/1uF) with low ESR in high frequency band
can be used for EMC.
These capacitors should be put as close as possible to VBAT pads. Also, user should keep VBAT
trace on the circuit board wider than 2 mm to minimize PCB trace impedance. The following figure
shows the recommended circuit.
Figure 5: Power supply application circuit
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In addition, in order to guard over voltage protection, it is suggested to use a zener diode with 5.1V
reverse zener voltage and more than 500mW power dissipation.
Table 7: Recommended zener diode list
No.
Manufacturer
Part Number
power dissipation
Package
On semi
MMSZ5231BT1G
500mW
SOD123
Prisemi
PZ3D4V2H
500mW
SOD323
Vishay
MMSZ4689-V
500mW
SOD123
Crownpo
CDZ55C5V1SM
500mW
0805
3.1.2
Recommended Power Supply Circuit
It is recommended that a switching modepower supply or linear regulator power supply is used. It
is important to make sure that all the components used in the power supply circuit can resist a peak
current up to 2A.
The following figure shows the linear regulatorreference circuit with 5V input and 3.8V output.
Figure 6: Linear regulator reference circuit
If there is a big voltage difference between input and output for VBAT power supply, orthe
efficiency is extremely important,then a switching mode power supply will be preferable. The
following figure shows theswitching mode power supply reference circuit.
Figure 7: Switching modepower supply reference circuit
Note: The Switching Mode power supply solution for VBAT must be chosen carefully against
Electro Magnetic Interference and ripple current from depraving RF performance.
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3.1.3
Voltage Monitor
To monitor the VBAT voltage, the AT command “AT+CBC” can be used.
For monitoring the VBAT voltage outside or within a special range, the AT command
“AT+CVALARM” can be used to enable the under-voltage warning function.
If users need to power off Module, when the VBAT voltage is out of a range, the AT command
“AT+CPMVT” can be used to enable under-voltage power-off function.
Note: Under-voltage warning function and under-voltage power-off function are disabled by
default. For more information about these AT commands, please refer to Document [1].
3.2
3.2.1
Power on/Power off/Reset Function
Power on
Module can be powered on by pulling the PWRKEY pin down to ground.
The PWRKEY pin has been pulled up to dVDDinternally, so you does not need to pull it up
externally. It is strongly recommended to put a100nF capacitor and an ESD protection diode close
to the PWRKEY pin. Please refer to the following figure for the recommended reference circuit.
dVDD
Turn on /off
impulse
PWRKEY
100Ω
4.7K
Diode
Power
On off logic
100nF
47K
MODULE
Figure 8: ReferencePower on/off circuit
The power-on scenarios are illustrated in the following figure.
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VBAT
Ton
PWRKEY
(Input)
Ton(status)
STATUS
(Output)
Ton(uart)
Active
Undefined
UART Port
USB Port
Ton(usb)
Active
Undefined
Figure 9: Power on timing sequence
Table 8: Power on timing and electronic characteristic
Symbol
Parameter
Ton
The time of active low level impulse of PWRKEY
pin to power on module
Ton(status)
The time from power-on issue to STATUS pin
output high level(indicating power up ready )
Ton(uart)
The time from power-on issue to UART port ready
20
Ton(usb)
The time from power-on issue to USB port ready
20
VIH
Input high level voltage on PWRKEY pin
0.6
0.8
1.8
VIL
Input low level voltage on PWRKEY pin
-0.3
0.5
3.2.2
Min.
Typ.
100
500
22
Max.
Unit
ms
Power off
The following methods can be used to power off Module.
● Method 1: Power off Module by pulling the PWRKEY pin down to ground.
● Method 2: Power off Module by AT command“AT+CPOF”.
● Method 3: Over-voltage or under-voltage automatic power off. The voltage range can be set by
AT command“AT+CPMVT”.
● Method 4: Over-temperature or under-temperature automatic power off.
Note: If the temperature is outside the range of -30~+80℃, some warning will be reported via
AT port. If the temperature is outside the range of -40~+85℃, Module will be powered off
automatically.
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For details about “AT+CPOF” and “AT+CPMVT”, please refer to Document [1].
These procedures will make modules disconnect from the network and allow the software to enter a
safe state and save data before modules are powered off completely.
The power off scenario by pulling down the PWRKEY pin is illustrated in the following figure.
Toff-on
Ton
Toff
PWRKEY
( Input )
STATUS
( Output )
Toff(status)
Toff(uart)
Active
UART Port
Undefined
Toff(usb)
Active
USB Port
Undefined
Figure 10: Power off timing sequence
Table 9: Power off timing and Electronic Characteristic
Symbol
Parameter
Toff
Time value
Unit
Min.
Typ.
Max.
The active low level time pulse on PWRKEY pin to
power off module
2.5
--
--
Toff(status)
The time from power-off issue to STATUS pin output
low level(indicating power off )*
22
Toff(uart)
The time from power-off issue to UART port off
15
Toff(usb)
The time from power-off issue to USB port off
15
Toff-on
The buffer time from power-off issue to power-on
issue
3.2.3
Reset Function
Module can be reset by pulling the RESET pin down to ground.
Note: This function is only used as an emergency reset when AT command “AT+CPOF” and the
PWRKEY pin all have lost efficacy.
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The RESET pin has been pulled up to 1.8V internally, so it does not need to be pulled up externally.
It is strongly recommended to put a100nF capacitor and an ESD protection diode close to the
RESET pin. Please refer to the following figure for the recommended reference circuit.
Figure 11: Reference reset circuit
Table 10: RESET pin electronic characteristic
Symbol
Description
Min.
Treset
The active low level time impulse on
RESET pin to reset module
100
VIH
Input high level voltage
1.17
1.8
2.1
VIL
Input low level voltage
-0.3
0.8
3.3
Typ.
Max.
Unit
ms
UART Interface
Module provides a 7-wire UART (universalasynchronous serial transmission) interface as DCE
(Data Communication Equipment). AT commands and data transmission can be performed through
UART interface.
3.3.1
UART Design Guide
The following figures show the reference design.
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Figure 12: UART full modem
Figure 13: UART null Modem
The Module UART is 1.8V voltage interface. If user’s UART application circuit is a 3.3V voltage
interface, the level shifter circuits should be used for voltage matching. The TXB0108RGYR
provided by Texas Instruments is recommended. The following figure shows the voltage matching
reference design.
Figure 14: Reference circuit of level shift
To comply with RS-232-C protocol, the RS-232-C level shifter chip should be used to connect
Module to the RS-232-C interface, for example SP3238ECA, etc.
Note: Module supports the following baud rates: 300, 600, 1200, 2400, 4800, 9600, 19200, 38400,
57600, 115200, 230400, 460800, 921600, 3200000, 3686400, 4000000bps. The default band rate
is 115200bps.
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3.3.2
RI and DTR Behavior
The RI pin can be used to interrupt output signal to inform the host controller such as application
CPU.
Normally RI will stay at high level until certain conditions such as receiving SMS, or a URC report
come in. It will then change to low level. It will stay low until the host controller clears the
interrupted event with “AT+CRIRS” AT command.
Figure 15: RI behaviour（SMS and URC report）
Normally RI will be kept high until a voice call, then it will output periodic rectangular wave with
5900ms low level and 100ms high level. It will output this kind of periodic rectangular wave until
the call is answered or hung up.
Figure 16: RI behaviour（voice call）
Note: For more details of AT commands about UART, please refer to document [1] and [22].
DTR pin can be used to wake Module from sleep. When Module enters sleep mode, pulling down
DTR can wake Module.
3.4
USB Interface
The Module contains a USB interface compliant with the USB2.0 specification as a peripheral, but
the USB charging function is not supported.
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3.4.1
USB Application Guide
Module can be used as a USB device. Module supports the USB suspend and resume mechanism
which can reduce power consumption. If there is no data transmission on the USB bus, Module will
enter suspend mode automatically and will be resumed by some events such as voice call, receiving
SMS, etc.
Figure 17: USB reference circuit
Because of the high bit rate on USB bus, more attention should be paid to the influence of the
junction capacitance of the ESD component on USB data lines. Typically, the capacitance should
be less than1pF. It is recommended to use an ESD protection component such as ESD9L5.0ST5G
provided by On Semiconductor (www.onsemi.com ).
D3 is suggested to select the diode with anti-ESD and voltage surge function, or customer could
add a ZENER diode for surge clamping. The recommend diodes list please refer to table 7.
L is recommended (MURATA) DLW21SN371SQ2L.
Note ： The USB_DM and USB_DP nets must be traced by 90Ohm+/-10% differential
impedance.
3.5
USIM Interface
Module supports both 1.8V and 3.0V USIM Cards.
Table 11: USIM Electronic characteristic in 1.8V mode (USIM_VDD=1.8V)
Symbol
Parameter
Min.
Typ.
Max.
Unit
USIM_
VDD
LDO power output voltage
1.75
1.8
1.95
VIH
High-level input voltage
0.65*USIM_VDD
USIM_VDD +0.3
VIL
Low-level input voltage
-0.3
0.35*USIM_VDD
VOH
High-level output voltage
USIM_VDD -0.45
USIM_VDD
VOL
Low-level output voltage
0.45
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Table 12: USIM Electronic characteristic 3.0V mode (USIM_VDD=2.95V)
Symbol
Parameter
Min.
Typ.
Max.
Unit
USIM_
VDD
LDO power output voltage
2.75
2.95
3.05
VIH
High-level input voltage
0.65*USIM_VDD
USIM_VDD +0.3
VIL
Low-level input voltage
-0.3
0.25*USIM_VDD
VOH
High-level output voltage
USIM_VDD -0.45
USIM_VDD
VOL
Low-level output voltage
0.45
3.5.1
USIM Application Guide
It is recommended to use an ESD protection component such as ESDA6V1W5 produced by ST
(www.st.com ) or SMF15C produced by ON SEMI (www.onsemi.com ). Note that the USIM
peripheral circuit should be close to the USIM card socket.The following figure shows the 6-pin
SIM card holder reference circuit.
Figure 18: USIM interface reference circuit
Note: USIM_DATA has been pulled up with a100KΩ resistor to USIM_VDD in module. A 100nF
capacitor on USIM_VDD is used to reduceinterference. For more details of AT commands about
USIM, please refer to document [1].
3.5.2
SIM Card Design Guide
SIM card signal could be interferenced by some high frequency signal, it is strongly recommended
to follow these guidelines while designing:

SIM card holder should be far away from antenna

SIM traces should keep away from RF lines, VBAT and high-speed signal lines
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






3.5.3
The traces should be as short as possible
Keep SIM card holder’s GND connect to main ground directly
Shielding the SIM card signal by ground well
Recommended to place a 100nF capacitor on SIM_VDD line and keep close to the SIM
card holder
Add some TVS which parasitic capacitance should not exceed 50pF
Add 51Ω resistor to (SIM_RST/SIM_CLK/SIM_DATA) signal could enhance ESD
protection
Add 22pF capacitor to (SIM_RST/SIM_CLK/SIM_DATA) signal to induce RF signal
interference
Recommended USIM Card Holder
It is recommended to use the 6-pin USIM socket such as C707 10M006 512 produced by
Amphenol. User can visit http://www.amphenol.com for more information about the holder.
Figure 19: Amphenol SIM card socket
Table 13: Amphenol USIM Socket Pin Description
Pin
C1
C2
Signal
USIM_VDD
USIM_RST
Description
USIM Card Power supply.
USIM Card Reset.
C3
C5
C6
C7
USIM_CLK
GND
VPP
USIM_DATA
USIM Card Clock.
Connect to GND.
USIM Card data I/O.
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3.6
PCM Interface
Module provides a PCM interface for external codec, which can be used inmaster mode with short
sync and 16 bits linear format.
Table 14: PCM Format
Characteristics
Specification
LineInterfaceFormat
Linear(Fixed)
Datalength
16bits(Fixed)
PCM Clock/Sync Source
Master Mode(Fixed)
PCMClockRate
2048 KHz (Fixed)
PCMSyncFormat
Shortsync(Fixed)
Data Ordering
MSB
Note: For more details about PCM AT commands, please refer to document [1].
3.6.1
PCM Timing
Module supports 2.048 MHz PCM data and sync timing for 16 bits linear format codec.
Figure 20: PCM_SYNC timing
Figure 21: EXT codec to module timing
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Figure 22: Module to EXT codec timing
Table 15: PCM Timing Parameters
Parameter
Description
Min.
Typ.
Max.
Unit
T(sync)
PCM_SYNC cycle time
–
125
–
μs
T(synch)
PCM_SYNC high level time
–
488
–
ns
T(syncl)
PCM_SYNC low level time
–
124.5
–
μs
T(clk)
PCM_CLK cycle time
–
488
–
ns
T(clkh)
PCM_CLK high level time
–
244
–
ns
T(clkl)
PCM_CLK low level time
–
244
–
ns
T(susync)
PCM_SYNC setup time high before falling edge of
PCM_CLK
–
122
–
ns
T(hsync)
PCM_SYNC hold time after falling edge of
PCM_CLK
–
366
–
ns
T(sudin)
PCM_IN setup time before falling edge of
PCM_CLK
60
–
–
ns
T(hdin)
PCM_IN hold time after falling edge of PCM_CLK
60
–
–
ns
T(pdout)
Delay from PCM_CLK rising to PCM_OUT valid
–
–
60
ns
T(zdout)
Delay from PCM_CLK falling to PCM_OUT
HIGH-Z
–
–
60
ns
3.6.2
PCM Application Guide
The following figure shows the external codec reference design.
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Figure 23: Audio codec reference circuit
Note: Module can transmit PCM data by theUSB portbesidesthe PCM interface. For more
details please refer to documents [1] and [23].
3.7
I2C Interface
Module provides a I2C interface compatible with I2C specification, version 2.1, with clock rate up
to 400 kbps. Its operation voltage is 1.8V.
3.7.1
I2C Design Guide
The following figure shows the I2C bus reference design.
Figure 24: I2C reference circuit
Note：
SDA and SCLhave pull-up resistors in module. So, 2 external pull up resistors are not needed in
application circuit.
“AT+CRIIC and AT+CWIIC” AT commands could be used to read/write register values of the
I2C peripheral devices.For more details about AT commands please refer to document [1].
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3.8
Network Status
The NETLIGHT pin is used to control Network Status LED, its reference circuit is shown in the
following figure.
Figure 25: NETLIGHT reference circuit
Note: The value of the resistor named “R” depends on the LED characteristic.
Table 16: NETLIGHT pin status
NETLIGHT pin status
Always On
200ms ON, 200ms OFF
800ms ON, 800ms OFF
Module status
Searching Network/Call Connect
Data Transmit
Registered network
OFF
Power off / Sleep
Note: NETLIGHT output low level as “OFF”, and high level as “ON”.
3.9
Operating Status Indication
The pin50 is for operating status indication of the module. The pin output is high when module is
powered on, and output is low when module is powered off.
Table 17: Pin definition of the STATUS
Pin name
Pin number
Description
STATUS
50
Operating status indication
Note: For timing about STATUS, please reference to the chapter “3.2 power on/down scenarios”
3.10 Pin Multiplex Function
Some pins of Module could be used for alternate function besides default function.
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Table 18: Pin multiplex function list
Pin Number Pin Name
Default Function
Alternate Function
SCL
SCL
GPIO11
SDA
SDA
GPIO10
12
USIM_DET
GPIO34
18
PCM_CLK
PCM_CLK
19
PCM_SYNC
PCM_SYNC
USIM_DET
GPIO23,SPI_CLK
I2C_SCL
GPIO20,SPI_MOSI
20
PCM_IN
PCM_IN,
21
PCM_OUT
PCM_OUT
GPIO21,SPI_MISO
GPIO22,SPI_CS_N
I2C_SDA
Note ： For more details of AT commands about GPIO multiplex function,please refer to
document [1].
3.11 Other interface
3.11.1 Sink Current Source
The ISINK pin is VBATtolerant and intended to drive some passive devices such as LCD backlight,
white LED, etc. Its output current can be up to 40 mA and be set by the AT command “AT+
CLEDITST”.
Table 19: Sink current electronic characteristic
Symbol
Description
Min.
Typ.
Max.
Unit
VISINK
Voltage tolerant
0.5
VBAT
IISINK
Current tolerant
40
mA
ISINK is a ground-referenced current sink. The following figure shows its reference circuit.
Figure 26: ISINK reference circuit
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Note: The sinking current can be adjusted to meet the design requirement through the AT
command “AT+ CLEDITST =<0>, ”.The “value” ranges from 0 to 8, on behalf of the
current from 0mA to 40mA by 5mA step.
3.11.2 ADC
Module has 1 dedicated ADC pins named ADC. They are available fordigitizing analog signals
such as battery voltage and so on. These electronic specifications are shown in the following table.
Table 20: ADC Electronic Characteristics
Min.
Characteristics
Resolution
Input Range
–
Input serial resistance
Typ.
15
0.1
–
Max.
Unit
1.7
Bits
–
MΩ
–
Note: “AT+CADC” can be used to read the voltage of the ADC pins, for more details, please
refer to document [1].
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4 RF Specifications
4.1
WCDMA/LTE RF Specifications
Table 21: Conducted transmission power
Frequency
WCDMA B2
WCDMA B5
LTE-FDD B2
LTE-FDD B4
LTE-FDD B12
Power
24dBm +1/-3dB
24dBm +1/-3dB
23dBm +/-2.7dB
23dBm +/-2.7dB
23dBm +/-2.7dB
Min.
<-50dBm
<-50dBm
<-40dBm
<-40dBm
<-40dBm
Table 22: Operating frequencies
Frequency
WCDMA B2
WCDMA B5
LTE-FDD B2
LTE-FDD B4
LTE-FDD B12
Receiving
1930~1990 MHz
869~894 MHz
1930 ~1990 MHz
2110~2155 MHz
729~746 MHz
Transmission
1850~1910 MHz
824~849 MHz
1850 ~1910 MHz
1710 ~1755 MHz
699 ~716 MHz
Table 23: Conducted receive sensitivity
Frequency
Receive sensitivity(Typical)
Receive sensitivity(MAX)
WCDMA B2
< -110dBm
3GPP
WCDMA B5
LTE
< -110dBm
See table 24
3GPP
3GPP
Table 24: Reference sensitivity (QPSK)
3GPP standard
Test value
3GPP standard
E-UTRA
band
1.4 MHz
3MHz
5MHz
10MHz
10 MHz
15 MHz
20 MHz
-102.7
-99.7
-98
-95
-101
-93.2
-92
FDD
-104.7
-101.7
-100
-97
-102
-95.2
-94
FDD
12
-101.7
-98.7
-97
-94
-101.5
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4.2
WCDMA/LTE Antenna Design Guide
Users should connect antennas to Module’s antenna pads through the micro-strip line or other types
of RF trace. The trace impedance must be controlled in 50Ω. SIMCom recommends that the total
insertion loss between Module and antenna should meet the following requirements:
Table 25: Trace Loss
Frequency
Loss
700MHz-960MHz
<0.5dB
1710MHz-2170MHz
<0.9dB
2300MHz-2650MHz
<1.2dB
To facilitate the antenna tuning and certification test, a RF connector and an antenna matching
circuit should be added. The following figure is the recommended circuit.
Figure 27: Antenna matching circuit (MAIN_ANT)
In above figure, the components R1,C1,C2 and R2 are used for antenna matching, the value of
components can only be achieved after the antenna tuning and usually provided by antenna vendor.
By default, the R1, R2 are 0Ω resistors, and the C1, C2 are reserved for tuning. The component D1
is a TVS for ESD protection, and it is optional for users according to application environment.
The RF test connector is used for the conducted RF performance test, and should be placed as close
as to the module’s MAIN_ANT pin. The traces impedance between Module and antenna must be
controlled in 50Ω.
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Figure 28: Antenna matching circuit (DIV_ANT)
In above figure, R3, C3, C4 and R4 are used for auxiliary antenna matching. By default, the R3, R4
are 0Ωresistors, and the C3, C4 are reserved for tuning. D2 is a TVS for ESD protection, and it is
optional for users according to application environment.
Two TVS are recommended in the table below.
Table 26: Recommended TVS
Package
Part Number
Vender
0201
LXES03AAA1-154
Murata
0402
LXES15AAA1-153
Murata
Note：SIMCom suggests the LTE auxiliary antenna to be kept on, since there are many high
bands in the designing of FDD-LTE. Because of the high insert loss of the RF cable and layout
lines, the receiver sensitivity of these bands above will have risk to meet the authentication
without the diversity antenna.For more details about auxiliary antenna design notice,please
refer to document [25]
To facilitate the antenna tuning and certification test, a RF connector and an antenna matching
circuit should be added. The following figure is the recommended circuit.
circuit should be added. The following figure is the recommended circuit.
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Figure 29: Antenna matching circuit (MAIN_ANT)
In figure 29, the components L106, C118, C119 and R111 or R102 are used for antenna matching,
the values of components can only be achieved after the antenna tuning and usually provided by
antenna vendor. By default, the L106,R111or R102 are 0Ω resistors, and the C118, C119 are
reserved for tuning are reserved for tuning. The RF test connector is used for the conducted RF
performance test, and should be placed as close as to the module’s MAIN_ANT pin. The traces
impedance between module and antenna must be controlled in 50Ω.
4.3
GNSS
SIM7600A-H merges GNSS satellite and network information to provide a high-availability
solution that offers industry-leading accuracy and performance. This solution performs well, even
in very challenging environmental conditions where conventional GNSS receivers fail, and
provides a platform to enable wireless operators to address both location-based services and
emergency mandates.
4.3.1








GNSS Technical specification
Tracking sensitivity: -159 dBm（GPS）/-158 dBm（GLONASS）
Cold-start sensitivity: -148 dBm
Accuracy (Open Sky): 2.5m (CEP50)
TTFF (Open Sky) : Hot start <1s, Cold start<35s
Receiver Type: 16-channel, C/A Code
GPS L1 Frequency: 1575.42±1.023MHz
GLONASS: 1597.5~1605.8 MHz
Update rate: Default 1 Hz
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


GNSS data format: NMEA-0183
GNSS Current consumption : 100mA ((WCDMA/LTE Sleep ,in total on VBAT pins)
GNSS antenna: Passive/Active antenna
Note: If the antenna is active type, the power should be given by main board, because there is no
power supply on GPS antenna pad. If the antenna is passive, it is suggested that the external
LNA should be used.
4.3.2
GNSS Application Guide
Users can adopt an active antenna or a passive antenna as GNSS signal transceiver. In this
document, all GNSS specification mentioned is from passive antenna. The following is the
reference circuit.
Figure 30: Active antenna circuit
Figure 31: Passive antenna circuit (Default)
In above figures, the components C1 and L1, L2 are used for antenna matching, the values of the
components can only be obtained after the antenna tuning and usually provided by antenna vendor.
C2 in Figure 29 is used for DC blocking. L3 is the matching component of the external LNA, and
the value of L3 is determined by the LNA characteristic and PCB layout. Both VDD of active
antenna and V_LNA need external power supplies which should be considered according to active
antenna and LNA characteristic. LDO/DCDC is recommended to get lower current consuming by
shutting down active antennas and LNA when GNSS is not working.
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LNA should apply the following requirements as table 28. LNA is also suggested to put near the
passive antenna.
Table 27: LNA requirements
Parameter
Min
Max
Unit
Vdd
Idd
LNA_EN
Gain
VSWR
1.5
3.3
mA
dB
1.3
14
17
GNSS can be used by NMEA port. User can select NMEA as output through UART or USB.
NMEA sentences are automatic and no command is provided. NMEA sentences include GSV, GGA,
RMC, GSA, and VTG. Before using GNSS, user should configure SIM7600A-H in proper
operating mode by AT command. Please refer to related document for details. SIM7600A-H can
also get position location information through AT directly.
Note: GNSS is closed by default, it could be started by AT+CGPS. The AT command has two
parameters, the first is on/off, and the second is GNSS mode. Default mode is standalone mode.
AGPS mode needs more support from the mobile telecommunication network. Please refer to
document [24] for more details.
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5 Electrical Specifications
5.1
Absolute Maximum Ratings
Absolute maximumrating for digital and analog pins of Module are listed in the following table:
Table 28: Absolute maximum ratings
Parameter
Voltage at VBAT
Voltage at VBUS
Voltage at digital pins (RESET,SPI,GPIO,I2C,UART,PCM)
Voltage at digital pins :USIM
Voltage at PWRKEY
5.2
Min.
-0.5
-0.5
-0.3
-0.3
-0.3
Max.
6.0
6.3
2.1
3.05
1.8
Unit
Typ.
3.8
Max.
4.2
5.25
Unit
Operating Conditions
Table 29: Recommended operating ratings
Parameter
Voltage at VBAT
Voltage at VBUS
Min.
3.4
3.6
Table 30: 1.8V Digital I/O characteristics*
Parameter
Description
Min.
Typ.
Max.
Unit
VIH
High-level input voltage
1.17
1.8
2.1
VIL
Low-level input voltage
-0.3
0.63
VOH
High-level output voltage
1.35
1.8
VOL
Low-level output voltage
0.45
IOH
High-level output current(no
pull down resistor)
IOL
Low-level output current(no pull
up resistor)
-2
IIH
Input high leakage current (no
pull down resistor)
IIL
Input low leakage current(no
pull up resistor)
-1
mA
mA
uA
uA
*Note: These parameters are for digital interface pins, such as SPI, GPIOs (NETLIGHT), I2C,
UART, PCM.
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The operating temperature of Module is listed in the following table.
Table 31: Operating temperature
Parameter
Normal operation temperature
Min.
-30
Typ.
25
Max.
80
Unit
℃
Extended operation temperature*
-40
25
85
℃
Storage temperature
-45
25
+90
℃
*Note: Module is able to make and receive voice calls, data calls, SMS and make
WCDMA/HSPA+/LTE traffic in -40℃ ~ +85℃. The performance will be reduced slightly from
the 3GPP specifications if the temperature is outside the normal operating temperature range
and still within the extreme operating temperature range.
5.3
Operating Mode
5.3.1
Operating Mode Definition
The table belowsummarizes the various operating modes of Module series products.
Table 32: Operating mode Definitions
Normal operation
Mode
Function
GSM/WCDMA / LTE
Sleep
In this case, the current consumption of module will be reduced to the
minimal level and the module can still receive paging message and
SMS.
GSM/WCDMA / LTE
Idle
Software is active. Module is registered to the network, and the
module is ready to communicate.
GSM/WCDMA / LTE
Talk
Connection between two subscribers is in progress. In this case, the
power consumption depends on network settings such as DTX off/on,
FR/EFR/HR, hopping sequences, antenna.
GSM/WCDMA/LTE
Standby
Module is ready for data transmission, but no data is currently sent or
received. In this case, power consumption depends on network
settings.
GPRS/EDGE/WCDM
A / LTE transmission
There is data transmission in progress. In this case, power
consumption is related to network settings (e.g. power control level);
uplink/downlink data rates, etc.
Minimum functionality
mode
AT command “AT+CFUN=0” can be used to set the module to a
minimum functionality mode without removing the power supply. In
this mode, the RF part of the module will not work and the USIM
card will not be accessible, but the serial port and USB port are still
accessible. The power consumption in this mode is lower than normal
mode.
Flight mode
AT command “AT+CFUN=4” or pulling down the FLIGHTMODE
pin can be used to set the module to flight mode without removing the
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power supply. In this mode, the RF part of the module will not work
but the serial port and USB port are still accessible. The power
consumption in this mode is lower than normal mode.
Power off
5.3.2
Module will go into power off mode by sending the AT command
“AT+CPOF” or by pulling down the PWRKEY pin normally. In this
mode the power management unit shuts down the power supply and
software is not active. The serial port and USB are is not accessible.
Sleep Mode
In sleep mode, the current consumption of module will be reduced to the minimal level, and
module can still receive paging message and SMS.
Several hardware and software conditions must be satisfied together in order to let Module enter
into sleep mode:
1. UART condition
2. USB condition
3. Software condition
Note: Before designing, pay attention to how to realize sleeping/waking function and refer to
Document [26] for more details.
5.3.3
Minimum Functionality Mode and Flight Mode
Minimum functionality mode ceasesa majority functionof module, thus minimizing the power
consumption. This mode is set by the AT command which provides a choice of the functionality
levels.
● AT+CFUN=0: Minimum functionality
● AT+CFUN=1: Full functionality (Default)
● AT+CFUN=4: Flight mode
If Module has been set to minimum functionality mode, the RF function and USIM card function
will be closed. In this case, the serial port and USB are still accessible, but RF function and USIM
card will be unavailable.
If Module has been set to flight mode, the RF function will be closed. In this case, the serial port
and USB are still accessible, but RF function will be unavailable.
When Module is in minimum functionality or flight mode, it can return to full functionality by the
AT command “AT+CFUN=1”.
5.4
Current Consumption
The current consumption is listed in the table below.
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Table 33: Current consumption on VBAT Pins (VBAT=3.8V)
UMTS Sleep/Idle Mode
WCDMA supply current
(without USB connection)
Sleep mode @DRX=9Typical: 1.11
Idle mode @DRX=9Typical: 17.5
LTE Sleep/Idle mode
LTE supply current
(without USB connection)
Sleep mode Typical: 1.56
Idle mode Typical: 22
UMTS Talk
WCDMA B2
@Power 22dBm
WCDMA B5
@Power 23.48dBm Typical: 480mA
HSDPA Data
WCDMA B2
WCDMA B5
LTE Data
@Power 24dBm Typical: TBD
@Power 24dBm Typical: TBD
LTE-FDD B2
LTE-FDD B4
LTE-FDD B12
5.5
@5 MHz
@10 MHz
@20 MHz
@5 MHz
@10 MHz
@20 MHz
@5 MHz
@10 MHz
Typical: 524mA
22.2dBm
22.7dBm
22.38dBm
23.05dBm
23.04dBm
22.83dBm
22.69dBm
22.9dBm
Typical: 589mA
Typical: 577mA
Typical: 626mA
Typical: 519mA
Typical: 556mA
Typical: 600mA
Typical: 516mA
Typical: 512mA
ESD Notes
Module is sensitive to ESD in the process of storage, transporting and assembling. Especially,
Module is mounted on the users’ mother board, The ESD components should be placed beside the
connectors which human body might touch, such as USIM card holder, audio jacks, switches and
keys, etc. The following table shows the Module ESD measurement performance without any
external ESD component.
Table 34: The ESD performance measurement table (Temperature: 25℃, Humidity: 45%)
Part
Contact discharge
Air discharge
GND
+/-6K
+/-12K
VBAT
+/-5K
+/-10K
Antenna port
+/-5K
+/-10K
USB
+/-4K
+/-8K
UART
+/-4K
+/-8K
PCM
+/-4K
+/-8K
Other PADs
+/-3K
+/-6K
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6 SMT Production Guide
6.1
Top and Bottom View of Module
Figure 32: Top and bottom view of Module
6.2
Typical SMT Reflow Profile
SIMCom provides a typical soldering profile. Therefore the soldering profile shown below is only
a generic recommendation and should be adjusted to the specific application and manufacturing
constraints.
Figure 33: The ramp-soak-spike Reflow Profile of Module
Note: For more details about secondary SMT, please refer to the document [21].
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6.3
Moisture Sensitivity Level (MSL)
Module is qualified to Moisture Sensitivity Level (MSL) 3 in accordance with JEDEC J-STD-033.
If the prescribed time limit is exceeded, users should bake modules for 192 hours in drying
equipment (<5% RH) at 40+5/-0°C, or 72 hours at 85+5/-5°C. Note that plastic tray is not
heat-resistant, and only can be baked at 45° C.
Table 35: Moisture Sensitivity Level and Floor Life
Moisture Sensitivity Level
(MSL)
Floor Life (out of bag) at factory ambient≤30°C/60% RH or as
stated
Unlimited at ≦30℃/85% RH
1 year
2a
4 weeks
168 hours
72 hours
48 hours
5a
24 hours
Mandatory bake before use. After bake, it must be reflowed within the
time limit specified on the label.
NOTE: IPC / JEDEC J-STD-033 standard must be followed for production and storage.
6.4
Stencil Foil Design Recommendation
The recommended thickness of stencil foil is more than 0.1mm.
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7 Packaging
Module module support tray packaging.
Figure 34: Packaging introduce
Module tray drawing：
Figure 35: Module tray drawing introduce
Table 36: Tray size
Length（±3mm）
Width（±3mm）
Module number
242.0
161.0
15
Small carton drawing：
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Figure 36: Small carton drawing introduce
Table 37: Small Carton size
Length（±10mm）
Width（±10mm）
Height（±10mm）
Module number
270
180
120
15*20=300
Big carton drawing：
Figure 37: Big carton drawing introduce
Table 38: Big carton size
Length（±10mm）
Width（±10mm）
Height（±10mm）
Module number
380
280
280
300*4=1200
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Appendix
A. Reference Design
Figure 38: Reference design
Note: The UART port suggest to be used by isolated circuit .
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B. Coding Schemes and Maximum Net Data Rates over Air Interface
Table 39: Coding schemes and maximum net data rates over air interface
Multislot definition(GPRS/EDGE)
Slot class
DL slot number
UL slot number
Active slot number
10
11
12
GPRS coding scheme
Max data rata（4 slots）
Modulation type
CS 1 = 9.05 kb/s / time slot
36.2 kb/s
GMSK
CS 2 = 13.4 kb/s / time slot
53.6 kb/s
GMSK
CS 3 = 15.6 kb/s / time slot
62.4 kb/s
GMSK
CS 4 = 21.4 kb/s / time slot
85.6 kb/s
GMSK
EDGE coding scheme
Max data rata（4 slots）
Modulation type
MCS 1 = 8.8 kb/s/ time slot
35.2 kb/s
GMSK
MCS 2 = 11.2 kb/s/ time slot
44.8 kb/s
GMSK
MCS 3 = 14.8 kb/s/ time slot
59.2 kb/s
GMSK
MCS 4 = 17.6 kb/s/ time slot
70.4 kb/s
GMSK
MCS 5 = 22.4 kb/s/ time slot
89.6 kb/s
8PSK
MCS 6 = 29.6 kb/s/ time slot
118.4 kb/s
8PSK
MCS 7 = 44.8 kb/s/ time slot
179.2 kb/s
8PSK
MCS 8 = 54.4 kb/s/ time slot
217.6 kb/s
8PSK
MCS 9 = 59.2 kb/s/ time slot
236.8 kb/s
8PSK
HSDPA device category
Max data rate（peak）
Modulation type
Category 1
1.2Mbps
16QAM,QPSK
Category 2
1.2Mbps
16QAM,QPSK
Category 3
1.8Mbps
16QAM,QPSK
Category 4
1.8Mbps
16QAM,QPSK
Category 5
3.6Mbps
16QAM,QPSK
Category 6
3.6Mbps
16QAM,QPSK
Category 7
7.2Mbps
16QAM,QPSK
Category 8
7.2Mbps
16QAM,QPSK
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Category 9
10.2Mbps
16QAM,QPSK
Category 10
14.4Mbps
16QAM,QPSK
Category 11
0.9Mbps
QPSK
Category 12
1.8Mbps
QPSK
Category 13
17.6Mbps
64QAM
Category 14
21.1Mbps
64QAM
Category 15
23.4Mbps
16QAM
Category 16
28Mbps
16QAM
Category 17
23.4Mbps
64QAM
Category 18
28Mbps
64QAM
Category 19
35.5Mbps
64QAM
Category 20
42Mbps
64QAM
Category 21
23.4Mbps
16QAM
Category 22
28Mbps
16QAM
Category 23
35.5Mbps
64QAM
Category 24
42.2Mbps
64QAM
HSUPA device category
Max data rate（peak）
Modulation type
Category 1
0.96Mbps
QPSK
Category 2
1.92Mbps
QPSK
Category 3
1.92Mbps
QPSK
Category 4
3.84Mbps
QPSK
Category 5
3.84Mbps
QPSK
Category 6
5.76Mbps
QPSK
LTE-FDD device category
(Downlink)
Max data rate（peak）
Modulation type
Category 1
10Mbps
QPSK/16QAM/64QAM
Category 2
50Mbps
QPSK/16QAM/64QAM
Category 3
100Mbps
QPSK/16QAM/64QAM
Category 4
150Mbps
QPSK/16QAM/64QAM
LTE-FDD device category
(Uplink)
Max data rate（peak）
Modulation type
Category 1
5Mbps
QPSK/16QAM
Category 2
25Mbps
QPSK/16QAM
Category 3
50Mbps
QPSK/16QAM
Category 4
50Mbps
QPSK/16QAM
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C. Related Documents
Table 40: Related documents
SN
[1]
[2]
Title
SIM7X00 Series_AT
Command Manual_V1.xx
ITU-T
Draft
new
recommendationV.25ter
[3]
GSM 07.07
[4]
GSM 07.10
[5]
GSM 07.05
[6]
GSM 11.14
[7]
GSM 11.11
[8]
GSM 03.38
[9]
GSM 11.10
[10]
3GPP TS 51.010-1
[11]
3GPP TS 34.124
[12]
3GPP TS 34.121
[13]
3GPP TS 34.123-1
[14]
3GPP TS 34.123-3
[15]
EN 301 908-02 V2.2.1
[16]
EN 301 489-24 V1.2.1
[17]
IEC/EN60950-1(2001)
[18]
3GPP TS 51.010-1
SIM7600A-H_User Manual_V1.00
Description
SIM7X00 Series_AT Command Manual
Serial asynchronous automatic dialing and control
Digital cellular telecommunications (Phase 2+); AT command
set for GSM Mobile Equipment (ME)
Support GSM 07.10 multiplexing protocol
Digital cellular telecommunications (Phase 2+); Use of Data
Terminal Equipment – Data Circuit terminating Equipment
(DTE – DCE) interface for Short Message Service (SMS)
and Cell Broadcast Service (CBS)
Digital cellular telecommunications system (Phase 2+);
Specification of the SIM Application Toolkit for the
Subscriber Identity Module – Mobile Equipment (SIM – ME)
interface
Digital cellular telecommunications system (Phase 2+);
Specification of the Subscriber Identity Module – Mobile
Equipment (SIM – ME) interface
Digital cellular telecommunications system (Phase 2+);
Alphabets and language-specific information
Digital cellular telecommunications system (Phase 2) ；
Mobile Station (MS) conformance specification； Part 1:
Conformance specification
Digital cellular telecommunications system (Release 5);
Mobile Station (MS) conformance specification
Electromagnetic Compatibility (EMC) for mobile terminals
and ancillary equipment.
Electromagnetic Compatibility (EMC) for mobile terminals
and ancillary equipment.
Technical Specification Group Radio Access Network;
Terminal conformance specification; Radio transmission and
reception (FDD)
User Equipment (UE) conformance specification; Part 3:
Abstract Test Suites.
Electromagnetic compatibility and Radio spectrum Matters
(ERM); Base Stations (BS) and User Equipment (UE) for
IMT-2000. Third Generation cellular networks; Part 2:
Harmonized EN for IMT-2000, CDMA Direct Spread
(UTRA FDD) (UE) covering essential requirements of article
3.2 of the R&TTE Directive
Electromagnetic compatibility and Radio Spectrum Matters
(ERM); Electromagnetic Compatibility (EMC) standard for
radio equipment and services; Part 24: Specific conditions for
IMT-2000 CDMA Direct Spread (UTRA) for Mobile and
portable (UE) radio and ancillary equipment
Safety of information technology equipment (2000)
Digital cellular telecommunications system (Release 5);
Mobile Station (MS) conformance specification
55
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Smart Machine Smart Decision
[19]
GCF-CC V3.23.1
[20]
2002/95/EC
[21]
Module
secondary-SMT-UGD-V1.xx
[22]
SIM7X00
Series_UART_Application
Note_V1.xx
[23]
[24]
[25]
SIM7X00 Series_USB
AUDIO_Application
Note_V1.xx
Antenna design guidelines for
diversity receiver system
SIM7X00 Series_Sleep Mode_
Application Note_V1.xx
SIM7600A-H_User Manual_V1.00
Global Certification Forum - Certification Criteria
Directive of the European Parliament and of the Council of
27 January 2003 on the restriction of the use of certain
hazardous substances in electrical and electronic equipment
(RoHS)
Module secondary SMT Guidelines
SIM7X00 Series_UART_Application Note
SIM7X00 Series_USB AUDIO_Application Note
Antenna design guidelines for diversity receiver system
SIM7X00 Series_Sleep Mode_ Application Note
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D. Terms and Abbreviations
Table 41: Terms and Abbreviations
Abbreviation
ADC
ARP
BER
BTS
CS
CSD
CTS
DAC
DRX
DSP
DTE
DTR
DTX
EFR
EGSM
EMC
ESD
ETS
EVDO
FCC
FD
FDMA
FR
GMSK
GPRS
GSM
GNSS
HR
HSPA
I2C
IMEI
LTE
MO
MS
MT
PAP
PBCCH
PCB
PCS
RF
RMS
RTC
SIM
Description
Analog-to-Digital Converter
Antenna Reference Point
Bit Error Rate
Base Transceiver Station
Coding Scheme
Circuit Switched Data
Clear to Send
Digital-to-Analog Converter
Discontinuous Reception
Digital Signal Processor
Data Terminal Equipment (typically computer, terminal, printer)
Data Terminal Ready
Discontinuous Transmission
Enhanced Full Rate
Enhanced GSM
Electromagnetic Compatibility
Electrostatic Discharge
European Telecommunication Standard
Evolution Data Only
Federal Communications Commission (U.S.)
SIM fix dialing phonebook
Frequency Division Multiple Access
Full Rate
Gaussian Minimum Shift Keying
General Packet Radio Service
Global Standard for Mobile Communications
Global Navigation Satellite System
Half Rate
High Speed Packet Access
Inter-Integrated Circuit
International Mobile Equipment Identity
Long Term Evolution
Mobile Originated
Mobile Station (GSM engine), also referred to as TE
Mobile Terminated
Password Authentication Protocol
Packet Switched Broadcast Control Channel
Printed Circuit Board
Personal Communication System, also referred to as GSM 1900
Radio Frequency
Root Mean Square (value)
Real Time Clock
Subscriber Identification Module
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SMS
SPI
SMPS
TDMA
TE
TX
UART
VSWR
SM
NC
EDGE
HSDPA
HSUPA
ZIF
WCDMA
VCTCXO
USIM
UMTS
UART
Short Message Service
serial peripheral interface
Switched-mode power supply
Time Division Multiple Access
Terminal Equipment, also referred to as DTE
Transmit Direction
Universal Asynchronous Receiver & Transmitter
Voltage Standing Wave Ratio
SIM phonebook
Not connect
Enhanced data rates for GSM evolution
High Speed Downlink Packet Access
High Speed Uplink Packet Access
Zero intermediate frequency
Wideband Code Division Multiple Access
Voltage control temperature-compensated crystal oscillator
Universal subscriber identity module
Universal mobile telecommunications system
Universal asynchronous receiver transmitter
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E. Safety Caution
Table 42: Safety caution
Marks
Requirements
When in a hospital or other health care facility, observe the restrictions about the use
of mobiles. Switch the cellular terminal or mobile off, medical equipment may be
sensitive and not operate normally due to RF energy interference.
Switch off the cellular terminal or mobile before boarding an aircraft. Make sure it is
switched off. The operation of wireless appliances in an aircraft is forbidden to
prevent interference with communication systems. Forgeting to think much of these
instructions may impact the flight safety or offend local legal action, or both.
Do not operate the cellular terminal or mobile in the presence of flammable gases or
fumes. Switch off the cellular terminal when you are near petrol stations, fuel depots,
chemical plants or where blasting operations are in progress. Operation of any
electrical equipment in potentially explosive atmospheres can constitute a safety
hazard.
Your cellular terminal or mobile receives and transmits radio frequency energy while
switched on. RF interference can occur if it is used close to TV sets, radios,
computers or other electric equipment.
Road safety comes first! Do not use a hand-held cellular terminal or mobile when
driving a vehicle, unless it is securely mounted in a holder for hands free operation.
Before making a call with a hand-held terminal or mobile, park the vehicle.
GSM cellular terminals or mobiles operate over radio frequency signals and cellular
networks and cannot be guaranteed to connect in all conditions, especially with a
mobile fee or an invalid SIM card. While you are in this condition and need emergent
help, please remember to use emergency calls. In order to make or receive calls, the
cellular terminal or mobile must be switched on and in a service area with adequate
cellular signal strength.
Some networks do not allow for emergency call if certain network services or phone
features are in use (e.g. lock functions, fixed dialing etc.). You may have to
deactivate those features before you can make an emergency call.
Also, some networks require that a valid SIM card be properly inserted in the cellular
terminal or mobile.
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Contact us:
Shanghai SIMCom Wireless Solutions Ltd.
Add: SIM Technology Building, No.633, Jinzhong Road, Changning District, Shanghai P.R. China
200335
Tel：+86 21 3235 3300
Fax：+86 21 3235 3020
URL：www.simcomm2m.com
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