Huawei Technologies MC703 Wireless Module supporting CDMA/EvDO 800/1900 User Manual MC703 Product Description

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Product Description
MC703 CDMA EV-DO Wireless Module
V100R001
Issue
1.00
Date
2009-08-24
HUAWEI TECHNOLOGIES CO., LTD.
Huawei Technologies Co., Ltd. provides customers with comprehensive technical support and service.
Please feel free to contact our local office or company headquarters.
Huawei Technologies Co., Ltd.
Address:
Huawei Industrial Base
Bantian, Longgang
Shenzhen 518129
People's Republic of China
Website:
http://www.huawei.com
Email:
support@huawei.com
Copyright © Huawei Technologies Co., Ltd. 2009. All rights reserved.
No part of this document may be reproduced or transmitted in any form or by any means without prior
written consent of Huawei Technologies Co., Ltd.
Trademarks and Permissions
and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd. All other trademarks
and trade names mentioned in this document are the property of their respective holders.
Notice
The information in this document is subject to change without notice. Every effort has been made in the
preparation of this document to ensure accuracy of the contents, but all statements, information, and
recommendations in this document do not constitute the warranty of any kind, express or implied.
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MC703 CDMA EV-DO Wireless Module
Product Description
About This Document
History
Issue
Details
Date
Author
Approved by
V1.00
Initial formal release.
2009-8-24
Zhang Jun
zhou Zhaoxing
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MC703 CDMA EV-DO Wireless Module
Product Description
Contents
1 Product Overview .........................................................................................................................9
1.1 About This Chapter .......................................................................................................................................... 9
1.2 Functions of the MC703 CDMA EV-DO Module............................................................................................ 9
1.3 Application Block Diagram of the MC703 CDMA EV-DO Module ............................................................. 11
2 Interface Description..................................................................................................................12
2.1 About This Chapter ........................................................................................................................................ 12
2.2 Signal Connector Interface............................................................................................................................. 12
2.2.1 Interface Signals.................................................................................................................................... 12
2.3 Antenna Interfaces.......................................................................................................................................... 15
2.3.1 Antenna Interface Circuits .................................................................................................................... 15
3 Electrical Features of the Interfaces.........................................................................................18
3.1 About This Chapter ........................................................................................................................................ 18
3.2 Application Extremes ..................................................................................................................................... 18
3.3 Operating and Storage Temperature ............................................................................................................... 19
3.4 Levels of the I/O Interface ............................................................................................................................. 19
3.5 Power Supply Features................................................................................................................................... 19
3.5.1 Input Power Supply............................................................................................................................... 19
3.5.2 Operating Current ................................................................................................................................. 20
3.5.3 Power-on, Power-off, and Reset Processes ........................................................................................... 21
3.5.4 RTC Power Supply ............................................................................................................................... 23
3.6 Reliability Features ........................................................................................................................................ 24
3.7 ESD Features.................................................................................................................................................. 25
3.7.1 Overview............................................................................................................................................... 25
3.7.2 ESD Protection on the Antenna Interface ............................................................................................. 25
3.7.3 ESD Protection on the RUIM Card Interface........................................................................................ 25
4 Interface Applications................................................................................................................27
4.1 About This Chapter ........................................................................................................................................ 27
4.2 UART Interface .............................................................................................................................................. 27
4.3 RUIM Card Interface ..................................................................................................................................... 30
4.4 Audio Interfaces ............................................................................................................................................. 32
4.5 Power Supply Interface .................................................................................................................................. 33
4.6 USB Bus......................................................................................................................................................... 34
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4.7 GPIO Interface ............................................................................................................................................... 34
4.8 ADC Interfaces............................................................................................................................................... 35
4.9 Status Indication Pins ..................................................................................................................................... 35
4.9.1 LED Circuits ......................................................................................................................................... 35
4.10 Pin Sequence ................................................................................................................................................ 37
5 Mechanics .....................................................................................................................................38
5.1 Overview........................................................................................................................................................ 38
5.2 Mechanical Dimensions of the MC703 CDMA EV-DO Module................................................................... 38
5.3 Mechanical Dimensions of the B2B Connector ............................................................................................. 40
A Acronyms and Abbreviations..................................................................................................44
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MC703 CDMA EV-DO Wireless Module
Product Description
Figures
Figure 1-1 Application block diagram of the MC703 CDMA EV-DO module ................................................... 11
Figure 2-1 Dimensions of the RF connector........................................................................................................ 16
Figure 2-2 RF connector...................................................................................................................................... 17
Figure 3-1 Power-on process of the MC703 CDMA EV-DO module ................................................................. 21
Figure 3-2 Normal power-off process of the MC703 CDMA EV-DO module.................................................... 22
Figure 3-3 Reset process of the MC703 CDMA EV-DO module........................................................................ 23
Figure 3-4 Recommended circuit for the ESD protection on the antenna interface ............................................ 25
Figure 3-5 Recommended circuit for ESD protection on the RUIM card interface ............................................ 25
Figure 4-1 Connections between the DCE and DTE........................................................................................... 28
Figure 4-2 Connections between the serial interface and the 3 V single-chip microcontroller ........................... 29
Figure 4-3 Connections for the 3-wire serial interface ........................................................................................ 29
Figure 4-4 Electrical connections for the 9-wire serial interface with the flow control function ........................ 30
Figure 4-5 Circuits of the RUIM card interface .................................................................................................. 31
Figure 4-6 Sequence of the pins of the RUIM card............................................................................................. 31
Figure 4-7 Sequence of the pins of a RUIM card seat......................................................................................... 31
Figure 4-8 Circuits of the first audio interface .................................................................................................... 33
Figure 4-9 Connections between the MC703 CDMA EV-DO module and the 8-ohm speaker........................... 33
Figure 4-10 Reference circuits for the design of the LDO power supply............................................................ 34
Figure 4-11 Reference circuits of the design of the ADC interfaces ................................................................... 35
Figure 4-12 Recommended circuits of the LED pins .......................................................................................... 36
Figure 4-13 Sequence of the pins on the MC703 CDMA EV-DO module.......................................................... 37
Figure 5-1 Mechanical dimensions of the MC703 CDMA EV-DO module (unit: mm)...................................... 39
Figure 5-2 Recommended shape of the toaling hole close to the B2B connector on the user application board 40
Figure 5-3 Mechanical dimensions of the MU103 module ................................................................................. 40
Figure 5-4 HRS DF12(3.0)-60DS-0.5V(86) connector on the MC703 CDMA EV-DO module......................... 41
Figure 5-5 HRS DF12(3.0)-60DP-0.5V(86) mating header on the user board.................................................... 41
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MC703 CDMA EV-DO Wireless Module
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Figure 5-6 Dimensions of the connector on the MC703 CDMA EV-DO module (unit: mm)............................. 42
Figure 5-7 Dimensions of the connector pad on the user interface board of the MC703 CDMA EV-DO module
.............................................................................................................................................................................. 42
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MC703 CDMA EV-DO Wireless Module
Product Description
Tables
Table 1-1 Product features ................................................................................................................................... 10
Table 2-1 Functions of the signals on the signal connector interface .................................................................. 12
Table 2-2 RF performance of the main diversity antenna interface..................................................................... 17
Table 2-3 RF performance of the diversity antenna and GPS antenna interface ................................................. 17
Table 3-1 Extreme application values of the MC703 CDMA EV-DO module.................................................... 18
Table 3-2 Temperature ranges of the MC703 CDMA EV-DO module................................................................ 19
Table 3-3 Levels of the I/O interfaces on the MC703 CDMA EV-DO module (VDD_PX = 2.6 V) ....................... 19
Table 3-4 Input power supply range of the MC703 CDMA EV-DO module ...................................................... 19
Table 3-5 Operating current of the MC703 CDMA EV-DO module (TBD) ....................................................... 20
Table 3-6 Parameters in the power-on process and power-off process ................................................................ 22
Table 3-7 VCOIN pin for the input of the RTC power supply............................................................................. 23
Table 3-8 Parameters of the RTC power supply pin ............................................................................................ 23
Table 3-9 Conditions and results of the part mechanical reliability tests............................................................. 24
Table 3-10 ESD performance .............................................................................................................................. 25
Table 4-1 Signals on UART1 of the MC703 CDMA EV-DO module................................................................. 28
Table 4-2 Pins of the RUIM card interface.......................................................................................................... 30
Table 4-3 Signals of the audio interfaces............................................................................................................. 32
Table 4-4 Signals of the USB interface................................................................................................................ 34
Table 4-5 Signals of the GPIO interfaces ............................................................................................................ 34
Table 4-6 Status of the LEDs............................................................................................................................... 36
Table 5-1 DF12 series that are compatible with the MC703 CDMA EV-DO module......................................... 41
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MC703 CDMA EV-DO Wireless Module
Product Description
Product Overview
1.1 About This Chapter
This chapter provides an overview of the MC703 Code Division Multiple Access (CDMA)
Evolution-Data Only (EV-DO) module, with the following information included:
Functions of the MC703 CDMA EV-DO Module
Application Block Diagram of the MC703 CDMA EV-DO Module
1.2 Functions of the MC703 CDMA EV-DO Module
The MC703 CDMA EV-DO module has the following functions:
Supporting the frequency bands of CDMA 800 MHz and/or CDMA 1900 MHz
Supporting the diversity receiving antenna
Supporting the Global Positioning System (GPS), optional
Supporting voice, short message, data, and supplementary services
Providing various user signal interfaces including the following:
1.
Power supply interface
2.
One 9-wire serial interface
3.
Two analog audio interfaces
4.
One Removable User Identity Module (RUIM) card interface (supporting the 3.0 V
RUIM card)
5.
One full-speed Universal Serial Bus (USB) 2.0 interface
6.
Eight General Purpose Input/Output (GPIO) interfaces
7.
Two Analog-to-Digital Converter (ADC) interfaces
Providing two kinds of antenna interfaces: antenna pad and antenna connector
Supporting the standard AT command set and the extended AT command set of Huawei
Complying with the Restriction of Hazardous Substances (RoHS) certification
Table 1-1 shows the features of the MC703 CDMA EV-DO module.
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MC703 CDMA EV-DO Wireless Module
Product Description
Table 1-1 Product features
Product Feature
Description
Frequency bands
CDMA: Double bands including 800 MHz and 1900 MHz
GPS: 1574.42 MHz to 1576.42 MHz
Technical standards
CDMA 2000 1XRTT
Compatible to CDMA IS-95 A/B 800/1900MHz
CDMA 2000 1x EV-DO Rev.0 800/1900 MHz
CDMA 2000 1x EV-DO Rev.A 800/1900 MHz
Maximum transmit
power
CDMA 800 MHz: +23 dBm (Power Class 3)
Operating temperature
Normal operation temperature: –30℃ to +75℃
CDMA 1900 MHz: +23 dBm (Power Class 2)
Extended operation temperature: –35℃ to +80℃
Storage temperature: –40℃ to +90℃
Power supply voltage
3.4 V to 4.2 V (The voltage of 3.8 V is recommended.)
Power consumption
(current)
Shutdown mode: < 10 uA
Standby mode: < TBD mA
Operating current under the maximum power consumption: < 680 mA
Data services
EV-DO Rev.A data services of up to DL 3.1 Mbit/s and UL 1.8 Mbit/s
AT commands
Standard AT command set
Extended AT command set of Huawei
60-pin board-to-board
(BTB) connector
One 9-wire Universal asynchronous receiver-transmitter (UART) interface
One standard RUIM card interface (3 V)
Eight GPIO interfaces
One hardware reset interface
Two analog audio interfaces
Two ADC interfaces
Power supply interface
Antenna interfaces
Supporting the main antenna interface and receiving diversity antenna interface
(The GPS antenna shares the connector with the receiving diversity antenna.)
Astron 51-3612-50-H RF connector and antenna pad
Voice services
FR, EFR, HR, and AMR voice coding
Short message service
(SMS)
Mobile Originated (MO) and Mobile Terminated (MT)
Point-to-point broadcast and cell broadcast
Short messages in text mode
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MC703 CDMA EV-DO Wireless Module
Product Description
Product Feature
Description
Supplementary services
Caller ID display, call forwarding, call holding, call waiting, and three-way
calling
Physical characteristics
Dimensions: 31 mm x 45 mm x 5 mm
Weight: 9.8±0.2 g
RoHS
Complying with the RoHS standards
CE certification
Complying with the Conformite Europeenne (CE) standards (CE0168)
1.3 Application Block Diagram of the MC703 CDMA
EV-DO Module
Figure 1-1 shows the application block diagram of the MC703 CDMA EV-DO module.
Figure 1-1 Application block diagram of the MC703 CDMA EV-DO module
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MC703 CDMA EV-DO Wireless Module
Product Description
Interface Description
2.1 About This Chapter
This chapter describes the signal interfaces of the MC703 CDMA EV-DO module, with the
following interfaces included:
Signal Connector Interface
Antenna Interfaces
2.2 Signal Connector Interface
2.2.1 Interface Signals
The MC703 CDMA EV-DO module adopts the 60-pin B2B connector as the external signal
interface.
Table 2-1 shows the function definition of the signals on the signal connector interface of the
MC703 CDMA EV-DO module.
Table 2-1 Functions of the signals on the signal connector interface
No.
Signal Name
IO
Function
Remarks
VBAT
Power supply input
The voltage ranges from 3.4
V to 4.2 V. The voltage of 3.8
V is recommended.
GND
Ground
VBAT
Power supply input
GND
Ground
VBAT
Power supply input
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The voltage ranges from 3.4
V to 4.2 V. The voltage of 3.8
V is recommended.
The voltage ranges from 3.4
V to 4.2 V. The voltage of 3.8
V is recommended.
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MC703 CDMA EV-DO Wireless Module
Product Description
No.
Signal Name
IO
Function
Remarks
GND
Ground
VBAT
Power supply input
GND
Ground
VBAT
Power supply input
10
GND
Ground
11
MODE_LED
AO
Mode indicator
This pin is a current sink
output.
12
VCOIN
Input of the backup power supply
This pin can be connected to a
button-type battery or a
capacitor of large capacitance.
13
STATUS_LED
AO
Status indicator
This pin is a current sink
output.
14
VREG_MSMP
Output of the 2.6 V voltage
This pin provides voltage for
peripherals.
The voltage ranges from 3.4
V to 4.2 V. The voltage of 3.8
V is recommended.
The voltage ranges from 3.4
V to 4.2 V. The voltage of 3.8
V is recommended.
See Note 1.
15
NC
This pin must be left
unconnected.
16
RESET_N
DI
Reset
Active low.
17
NC
This pin must be left
unconnected.
18
TERM_ON
DI
Power-on
Active low.
19
NC
This pin must be left
unconnected.
20
UART1_RTS
DO
Request To Send (RTS) signal of
UART1
21
FORCE_LOAD_N
DI
Force-load signal
22
UART1_RING
DO
Ringing signal of UART1
23
UART1_RD
DI
RD signal of UART1
24
UART1_DSR
DO
Data set ready (DSR) signal of
UART1
25
GPIO_7
IO
GPIO 7
26
UART1_CTS
DO
Clear to Send (CTS) signal of
UART1
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Active low.
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MC703 CDMA EV-DO Wireless Module
Product Description
No.
Signal Name
IO
Function
27
UART1_TD
DO
TD signal of UART1
28
UART1_DTR
DI
Data terminal ready (DTR) signal
of UART1
29
GPIO_8
IO
GPIO 8
30
UART1_DCD
DO
Data carrier detect (DCD) signal
of UART1
31
NC
32
GPIO_1
IO
GPIO 1
33
GPIO_2
IO
GPIO 2
34
MODULE_WAKE
UP
DI
Signal to wake up the module by
the host
35
GPIO_3
IO
GPIO 3
36
USB_D-
IO
USB data signal, negative
37
GPIO_4
IO
GPIO 4
38
USB_D+
IO
USB data signal, positive
39
GPIO_5
IO
GPIO 5
40
HOST_WAKEUP
DO
Signal to wake up the host by the
module
41
GPIO_6
IO
GPIO 6
42
RUIM_CLK
DO
Clock signal of the RUIM
interface
43
I2C_SCL
IO
Clock signal of the I2C bus
44
VREG_RUIM
Power supply of the RUIM
interface
45
I2C_SDA
IO
Data signal of the I2C bus
46
RUIM_IO
IO
Data signal of the RUIM interface
47
EAR1_N
AO
Negative pole of the output of the
first audio interface
48
RUIM_RST
DO
Reset signal of the RUIM
interface
49
EAR1_P
AO
Positive pole of the output of the
first audio interface
50
RUIM_IN
DI
Signal for detecting the presence
of the RUIM card
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Remarks
This pin must be left
unconnected.
Reserved
Reserved
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MC703 CDMA EV-DO Wireless Module
Product Description
No.
Signal Name
IO
Function
Remarks
51
MIC1_N
AI
Negative pole of the input of the
first audio interface
See section 4.4 "Audio
Interfaces."
52
GND
Ground
53
MIC1_P
AI
Positive pole of the input of the
first audio interface
54
SPKR_OUT_N
AO
Negative pole of the output of the
second audio interface
55
GND
Ground
56
SPKR_OUT_P
AO
Positive pole of the output of the
second audio interface
57
ADC_1
AI
Input of the first ADC channel
58
MIC2_N
AI
Negative pole of the input of the
second audio interface
59
ADC_2
AI
Input of the second ADC channel
60
MIC2_P
AI
Positive pole of the input of the
second audio interface
The input voltage ranges from
0 V to 2.6 V.
The input voltage ranges from
0 V to 2.6 V.
NOTE
Note 1: The VREG_MSMP pin exports the voltage of 2.6 V with the capability of 50 mA.
Note 2: Terms description:
AI: Analog Input.
AO: Analog Output.
P: Power/Ground.
IO: Digital Input/Digital Output.
DI: Digital Input.
DO: Digital Output.
NC: Not Connected.
2.3 Antenna Interfaces
2.3.1 Antenna Interface Circuits
The MC703 CDMA EV-DO module supports the main antenna interface and the diversity
antenna interface. Both of these two antenna interfaces include two connection types, a RF
connector and an antenna pad. Either of these two antenna connection types can be selected
for use. The selected cable and antenna must have an impedance of 50 ohm.
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MC703 CDMA EV-DO Wireless Module
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The MC703 CDMA EV-DO module adopts the 51-3612-50-H RF connector supplied by
Astron. Figure 2-1 shows the dimensions of the RF connector.
Figure 2-1 Dimensions of the RF connector
Figure 2-2 shows the RF connector. The two interfaces on the RF connector are pointed by the
red arrows. The antenna pad is located at the bottom of the RF connector. A coaxial cable can
be soldered on the antenna pad for connecting an external antenna to the MC703 CDMA
EV-DO module. The interface marked with M is the main diversity antenna interface and the
interface marked with A is the interface used by both the diversity antenna and the GPS
antenna.
The RF connector and antenna pad can only be applied alternatively. When using the antenna
pad, make sure that the surface of the soldering points is smooth to reduce the impact of the
soldering on RF signals.
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MC703 CDMA EV-DO Wireless Module
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Figure 2-2 RF connector
Table 2-2 and Table 2-3 show the RF performance of the antenna interfaces.
Table 2-2 RF performance of the main diversity antenna interface
Frequency
Band
Frequency Range (MHz)
Maximum Transmit Power (dBm)
Receiving Sensitivity of the
Antenna Interface (dBm)
Uplink
Downlink
Minimum
Value
Typical
Value
Maximum
Value
Minimum
Value
Typical
Value
Maximu
m Value
CDMA 800
824 to 849
869 to 894
23
24.5
26
–107.5
–106
CDMA 1900
1850 to 1910
1930 to 1990
23
24.5
26
–107.5
–106
Table 2-3 RF performance of the diversity antenna and GPS antenna interface
Frequency
Band
Frequency Range
(MHz)
Receiving Sensitivity of the Antenna Interface (dBm)
CDMA 800
869 to 894
< –106
CDMA 1900
1930 to 1990
< –106
GPS
1575.42
< –155.8 (50% Time)
The antenna whose gain value is
less than 1 dBi is recommended.
According to the layout of the circuit board, adjust the reference value of each component.
You can connect an inductor of 68 nH to 100 nH for electrostatic discharge (ESD) protection
to the ground. Pay special attention to the impedance matching of the antenna and ESD
protection capability or lightning protection capability.
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MC703 CDMA EV-DO Wireless Module
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Electrical Features of the Interfaces
3.1 About This Chapter
This chapter describes the electrical features of the interfaces of the MC703 CDMA EV-DO
module with the following features included:
Application Extremes
Operating and Storage Temperature
Levels of the I/O Interface
Power Supply Features
Reliability Features
ESD Features
This chapter describes mainly the electrical features of the external interfaces of the MC703 CDMA
EV-DO module.
3.2 Application Extremes
Table 3-1 shows the extreme application values of the MC703 CDMA EV-DO module. When
a voltage lower or higher than the limit values is used, a permanent damage may be caused to
the MC703 CDMA EV-DO module.
Table 3-1 Extreme application values of the MC703 CDMA EV-DO module
Parameter
Description
Minimum Value
Maximum Value
Unit
VBAT
Input voltage of the MC703
CDMA EV-DO module
–0.5
5.0
VIN
Input voltage of the I/O
interface
–0.5
5.0
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MC703 CDMA EV-DO Wireless Module
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3.3 Operating and Storage Temperature
Table 3-2 shows the temperature ranges of the MC703 CDMA EV-DO module.
Table 3-2 Temperature ranges of the MC703 CDMA EV-DO module
Parameter
Minimum Value
Maximum Value
Unit
Normal operating temperature
–30
75
℃
Extended operating temperature
–35
80
℃
Storage temperature
–40
90
℃
3.4 Levels of the I/O Interface
Table 3-3 shows the levels of the I/O interfaces on the MC703 CDMA EV-DO module.
Table 3-3 Levels of the I/O interfaces on the MC703 CDMA EV-DO module (VDD_PX = 2.6 V)
Parameter
Description
Minimum Value
Maximum Value
Unit
VIH
High-level input voltage
0.65 x VDD_PX
VDD_PX + 0.3
VIL
Low-level input voltage
–0.3
0.35 x VDD_PX
VOH
High-level output voltage
VDD_PX – 0.45
VDD_PX
VOL
Low-level output voltage
0.45
IIH
Current leakage during
high-level input
µA
IIL
Current leakage during
low-level input
–1
µA
CIN
Input capacitance
pF
3.5 Power Supply Features
3.5.1 Input Power Supply
Table 3-4 shows the input power supply range of the MC703 CDMA EV-DO module.
Table 3-4 Input power supply range of the MC703 CDMA EV-DO module
Parameter
Minimum Value
Typical Value
Maximum Value
Unit
VBAT
3.4
3.8
4.2
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MC703 CDMA EV-DO Wireless Module
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The time when any interface on the MC703 CDMA EV-DO module is powered on must not
be earlier than the time when the module is powered on. Otherwise, the MC703 CDMA
EV-DO module may be abnormal or damaged.
3.5.2 Operating Current
Table 3-5 shows the operating current of the MC703 CDMA EV-DO module.
Table 3-5 Operating current of the MC703 CDMA EV-DO module (TBD)
Operating Mode
Minimum
Value
Typical Value
Maximum Value
Unit
Idle state
TBD
mA
Calling state
TBD
mA
EV-DO data
transmission state
TBD
mA
Off state
TBD
TBD
µA
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MC703 CDMA EV-DO Wireless Module
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3.5.3 Power-on, Power-off, and Reset Processes
When the voltage of the power supplied to the MC703 CDMA EV-DO module is higher than
3.4 V and the TERM_ON pin is driven low for at least 300 ms, the MC703 CDMA EV-DO
module can be powered on. Figure 3-1 shows the power-on process of the MC703 CDMA
EV-DO module.
Figure 3-1 Power-on process of the MC703 CDMA EV-DO module
If the power supply with the lower voltage (for example 3.4 V) is used, the cable connecting
the external power supply and the module should be as short as possible and the power supply
input should be configured with a capacitor of higher than 1000 µF. Otherwise, the voltage
that is actually imported to the MC703 CDMA EV-DO module may be lower than 3.4 V,
resulting in the deterioration of RF indicators and unstable operation of the MC703 CDMA
EV-DO module.
The power-off process is classified into normal power-off and urgent power-off.
Normal power-off
An external CPU drives the TERM_ON pin low for more than 3s. Then, the MC703 CDMA
EV-DO module is normally powered off. During the normal power-off process, the MC703
CDMA EV-DO module can save information and log out of the network.
Figure 3-2 shows the normal power-off process.
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MC703 CDMA EV-DO Wireless Module
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Figure 3-2 Normal power-off process of the MC703 CDMA EV-DO module
Table 3-6 shows the parameters in the power-on process and power-off process.
Table 3-6 Parameters in the power-on process and power-off process
Parameter
Minimum Value
Typical Value
Maximum Value
Unit
tsettle
0.36
6.36
10.36
ms
treset0
10.72
26.72
40.72
ms
treset1
400
500
600
ms
toff
7.27
10.6
15.6
ms
Urgent power-off
An external CPU sends the AT%MSO command to the MC703 CDMA EV-DO module to
directly cut off the power supply to the VBAT pin. Then, the MC703 CDMA EV-DO module
can be directly powered off.
During the urgent power-off process, the MC703 CDMA EV-DO module cannot perform the
operation of logging out of the network.
For the details about the AT%MSO command, refer to the HUAWEI MC703 Wireless Module AT
Command Interface Specification.
When the RESET_N pin is driven low for 50 ms, the MC703 CDMA EV-DO module can be
reset. Figure 3-3 shows the reset process of the MC703 CDMA EV-DO module.
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Figure 3-3 Reset process of the MC703 CDMA EV-DO module
The RESET_N pin is sensitive to interference. Therefore, the lines on the interface board of the MC703
CDMA EV-DO module should be not longer than 2 cm. Otherwise, the MC703 CDMA EV-DO module
may be reset because of interference.
3.5.4 RTC Power Supply
The power supply pin for the real-time clock (RTC) can obtain current from the VBAT pin
through software enabling to charge the backup battery of the RTC. The power supply input is
monitored by a CPU.
The MC703 CDMA EV-DO module defines the VCOIN pin for the input of the backup power
supply on the 60-pin B2B connector to implement the power supply input for the RTC.
Table 3-7 VCOIN pin for the input of the RTC power supply
PIN
Name
I/O
Function
Remarks
12
VCOIN
Input of the backup power
supply
This pin is connected to a button-type
battery or a capacitor of large
capacitance.
If the RTC backup battery is not used, you can connect the pin to the primary power supply,
or use an electrolytic capacitor of large capacitance.
Table 3-8 Parameters of the RTC power supply pin
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3.6 Reliability Features
Table 3-9 shows the conditions and results of the part mechanical reliability tests performed
on the MC703 CDMA EV-DO module.
Table 3-9 Conditions and results of the part mechanical reliability tests
Test Item
Test Condition
Test Standard
Random vibration
Frequency range: 5 Hz to 20 Hz, PSD: 1.0 m²/s3;
IEC 68-2-6
Frequency range: 20 Hz to 200 Hz, –3 dB/oct;
Three axial directions with one hour for each
direction
Shock test
Half sine wave shock
TIA/EIA 603 3.3.5
Acceleration: 20 g
GB/T15844.2 4.1
Shock period: 11 ms
Six axial directions with one shock in each direction
(± x, y, and z)
Temperature shock
Low temperature: –40°C±2°C
IEC 68-2-14 Na
High temperature: 85°C±2°C
Changeover time: < 30s
Test duration: 1 hour
Repetition times: 100
Damp heat cyclic
High temperature: 55°C±2°C
IEC 68-2-30 Db
Low temperature: 25°C±2°C
Humidity: 95%
Repetition times: 4
Test duration: 12 hours + 12 hours
Low-temperature
operation
Temperature: –30°C±2°C
High-temperature
operation
Temperature: 75°C±2°C
Low-temperature
storage
Temperature: –60°C±2°C
High-temperature
storage
Temperature: 90°C±2°C
Salt spray test
Temperature: 35°C
IEC 68-2-1 Ab
Test period: 24 hours
IEC 68-2-2 Bb
Test period: 24 hours
IEC 68-2-1 Ab
Test period: 24 hours
IEC 68-2-2 Bb
Test period: 24 hours
IEC 68-2-11
Density of the NaCl solution: 5%±1%
Spraying duration: 48 hours
Duration of exposing the module to the temperature
of 35 ºC: 16 hours
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3.7 ESD Features
3.7.1 Overview
When the MC703 CDMA EV-DO module is in use, the ESD protection should be considered.
The ESD performance of the MC703 CDMA EV-DO module has been tested according to the
EN61000-4-2 standard. Table 3-10 shows the test results.
Table 3-10 ESD performance
Interface
Air Discharge
Contact Discharge
RUIM card interface
±8000 V
±4000 V
USB interface
±8000 V
±4000 V
3.7.2 ESD Protection on the Antenna Interface
The antenna interface of the MC703 CDMA EV-DO module is sensitive to ESD. Poor ESD
protection may cause permanent damage to internal RF components. Figure 3-4 shows the
recommended circuit for the ESD protection on the antenna interface.
Figure 3-4 Recommended circuit for the ESD protection on the antenna interface
3.7.3 ESD Protection on the RUIM Card Interface
Figure 3-5 shows the recommended circuit for the ESD protection on the RUIM card interface
of the MC703 CDMA EV-DO module. The transient voltage suppressor (TVS) diode should
be placed as close to the RUIM card seat as possible.
Figure 3-5 Recommended circuit for ESD protection on the RUIM card interface
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Interface Applications
4.1 About This Chapter
This chapter describes the applications of the interfaces of the MC703 CDMA EV-DO module,
with the following interfaces included:
UART Interface
RUIM Card Interface
Audio Interfaces
Power Supply Interface
USB Bus
GPIO Interface
ADC Interfaces
Status Indication Pins
Pin Sequence
4.2 UART Interface
The MC703 CDMA EV-DO module has one UART interface, that is, UART1. UART1 is a
9-wire serial interface supporting the flow control function and a maximum transmission rate
of 4 Mbit/s.
UART1 supports data services. You can set up the Point-to-Point Protocol (PPP) dial-up
connection for data services through UART1.
UART1 supports programmable data width, data stop bit, and parity check (or no parity
check). In addition, UART1 supports a maximum baud rate of 230.4 kbps and a default baud
rate of 115.2 kbps. The set baud rate can be saved even if the interface is powered off.
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Figure 4-1 Connections between the DCE and DTE
Table 4-1 shows the definitions of the interface signals.
Table 4-1 Signals on UART1 of the MC703 CDMA EV-DO module
Pin
Number
Signal Name
Description
Feature
Direction
27
UART1_TD
Data transmission end of
the module
The Date Terminal
Equipment (DTE)
receives serial data.
DCE–DTE
23
UART1_RD
Data receiving end of the
module
The DTE transmits serial
data.
DTE–DCE
22
UART1_RING
Ringing indication of the
module
The DTE is notified of a
remote call.
DCE–DTE
20
UART1_RTS
RTS on the module
The DTE notifies the Data
Communications
Equipment (DCE) of
sending requests.
DCE–DTE
28
UART1_DTR
DTR on the module
The DTE is ready.
DTE–DCE
24
UART1_DSR
DSR on the module
The DCE is ready.
DCE–DTE
26
UART1_CTS
CTS on the module
The DCE switches to the
receiving mode.
DTE–DCE
30
UART1_DCD
DCD on the module
Data links are connected.
DCE–DTE
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When MC703 CDMA EV-DO module is connected to a 3V single-chip microcontroller. a
1000-ohm resistor should be added between the pin UART1_RD and the pin TXD of the
microcontroller.
Figure 4-2 Connections between the serial interface and the 3 V single-chip microcontroller
You can use a Category 232 chip to connect the MC703 CDMA EV-DO module to a standard
RS-232-C interface. In the case of a 3-wire serial interface, the MAX3232 chip is
recommended. The UART1-RD pin of the module connects to the TXD pin of the DTE after
being converted through the MAX3232 chip, and the TXD pin of the DTE connects to the
UART1_TD pin of the module after being converted through the MAX232 chip.
Figure 4-3 Connections for the 3-wire serial interface
In the case of a full-serial interface, the MAX3232, SP3238, or MAX3238 chip is
recommended.
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Figure 4-4 Electrical connections for the 9-wire serial interface with the flow control function
4.3 RUIM Card Interface
The MC703 CDMA EV-DO module can connect to a 3 V or a 1.8 V RUIM card. Table 4-2
shows the signals of the RUIM card interface. The level of the RUIM card interface is 3 V or
1.8 V.
Table 4-2 Pins of the RUIM card interface
Pin Number
Signal Name
Description
44
VREG_RUIM
Power supply of the RUIM card
48
RUIM_RST
Reset signal of the RUIM card
42
RUIM_CLK
Clock signal of the RUIM card
46
RUIM_IO
Data signal of the RUIM card
GND
Ground
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Figure 4-5 Circuits of the RUIM card interface
Figure 4-6 Sequence of the pins of the RUIM card
Figure 4-7 Sequence of the pins of a RUIM card socket
The typical rate of the RUIM card interface is about 3.25 MHz. Therefore, the RUIM card
seat should be as close to the module interface as possible and the line should not exceed 10
cm. This prevents the communications quality of signals from being affected by serious
waveform distortion because of too long lines. Ground lines should be used to enclose the
lines used for transmitting RUIM_CLK signals and RUIM_IO signals.
To filter out the interference from antenna signals, you need to add a 0.1µF or a 0.22µF
capacitor to the RUIM_VCC signal and a 33pF capacitor to the RUIM_CLK, RUIM_IO, and
RUIM_RST signals based on the GND network. In addition, you need to add TVS diodes to
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these four signals for ESD protection. The TVS diodes should be placed as close to the RUIM
card socket as possible.
4.4 Audio Interfaces
The MC703 CDMA EV-DO module provides two audio channels and each channel includes
one input and one output interfaces. Table 4-3 shows the signals of the audio interfaces.
Table 4-3 Signals of the audio interfaces
Pin Number
Signal Name
Description
51
MIC1_N
Negative pole of the input of the first audio interface
53
MIC1_P
Positive pole of the input of the first audio interface
47
EAR1_N
Negative pole of the output of the first audio interface
49
EAR1_P
Positive pole of the output of the first audio interface
58
MIC2_N
Negative pole of the input of the second audio interface
60
MIC2_P
Positive pole of the output of the second audio interface
54
SPKR_OUT_N
Negative pole of the output of the second audio interface
56
SPKR_OUT_P
Positive pole of the output of the second audio interface
The input and output signals on the first audio interface are fully differential and thus have
good performance of resisting RF interference. This audio interface can be used in handset
connection mode without any external audio frequency amplifier (AFA).
As the audio signals are in differential pairs, the lines on the printed circuit board (PCB)
should be equidistantly laid in parallel with each other. The lines should be as short as
possible, the filter circuits of the two sides should be symmetric, the differential pair signals
should be close to each other, and the grounding is required. The differential pair signals of
the audio output and the differential pair signals of the audio output should be effectively
separated through grounding. In addition, the signals should be away from the circuits of the
power supply, RF, and antenna.
Differentiate and isolate functional modules during PCB design of the application board
which the MC703 CDMA EV-DO module is applied on.
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Figure 4-8 Circuits of the first audio interface
Differential signals are transmitted on the first audio interface. By reserving a place for the
resistor in the loop, you can adjust the quality and volume of the voice. It is recommended
that you place a TVS on the related interface to provide protection against ESD and protect
components such as the internal integrated circuit (IC) component.
The output signals of the second audio interface can directly drive an 8-ohm speaker.
Figure 4-9 Connections between the MC703 CDMA EV-DO module and the 8-ohm speaker
4.5 Power Supply Interface
An external power supply with the voltage of 3.3 V to 4.2 V (the typical value is 3.8 V)
powers the MC703 CDMA EV-DO module through the VBAT pin. When the network signals
are weak, the antenna transmits signals with the highest power and the maximum transient
current can be up to 1.1A. In this case, it is recommended that you use a low dropout (LDO)
regulator or a switching-mode power supply whose current is higher than 1.1 A.
Considering the voltage drop that may occur during the transmission with high power, you
can add a large capacitor on the power supply interface of the module. The electrolytic
capacitor of over 220 µF is recommended.
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Figure 4-10 Reference circuits for the design of the LDO power supply
4.6 USB Bus
Working with the drives of a PC, the USB interface can be mapped to a serial interface of the
PC. The USB interface is mainly used for updating module applications, capturing software
logs, and testing module applications.
Table 4-4 Signals of the USB interface
Pin Number
Signal Name
Description
36
USB_D-
USB data line
38
USB_D+
USB data line
4.7 GPIO Interface
The MC703 CDMA EV-DO module supports up to eight GPIO interfaces. Table 4-5 shows
the signals of the GPIO interfaces.
Table 4-5 Signals of the GPIO interfaces
Pin Number
Signal
I/O
Description
32
GPIO_1
I/O
GPIO 1
33
GPIO_2
I/O
GPIO 2
35
GPIO_3
I/O
GPIO 3
37
GPIO_4
I/O
GPIO 4
39
GPIO_5
I/O
GPIO 5
41
GPIO_6
I/O
GPIO 6
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Pin Number
Signal
I/O
Description
25
GPIO_7
I/O
GPIO 7
29
GPIO_8
I/O
GPIO 8
4.8 ADC Interfaces
The MC703 CDMA EV-DO module supports two ADC interfaces for monitoring analog
variables, such as the environmental temperature variable.
Figure 4-11 Reference circuits of the design of the ADC interfaces
4.9 Status Indication Pins
4.9.1 LED Circuits
The MC703 CDMA EV-DO module supplies two signals which can be used to light the LEDs.
One LED indicates the network mode and the other LED indicates the signal status. The
LEDs are controlled by the current sink. The high voltage is the voltage of VBAT (with the
typical value of 3.8 V).
Table 4-6 shows the status of the LEDs.
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Table 4-6 Status of the LEDs
Operating Mode of the MC703 CDMA
EV-DO Module
LED Status
The module is searching for a network or no
network is available.
The LED flashes once. (The LED is on for 100 ms and off for
0.9s. Each cycle lasts 1s.)
The module finds out a 2G network.
The LED flashes once. (The LED is on for 100 ms and off for
1.9s. Each cycle lasts 2s.)
The module finds out a 3G network.
The LED flashes once. (The LED is on for 100 ms and off for
2.9s. Each cycle lasts 3s.)
The module is processing the CDMA 1X
data services through the dial-up service.
The LED flashes twice. (The LED is on for 100 ms and off for
300 ms, and then on for 100 ms and off for 1.5s. Each cycle lasts
2s.)
The module is processing the EV-DO data
services through the dial-up service.
The LED flashes twice. (The LED is on for 100 ms and off for
200 ms, and then on for 100 ms and off for 600 ms. Each cycle
lasts 1s.)
The module is in factory test mode (FTM).
The LED flashes slowly. (The LED is on for 1s and off for 1s.
Each cycle lasts 2s.)
The module is upgrading software.
The LED flashes quickly. (The LED is on for 100 ms and off for
100 ms. Each cycle lasts 0.2s.)
Figure 4-12 shows the recommended circuits of the LED pins.
Figure 4-12 Recommended circuits of the LED pins
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4.10 Pin Sequence
Figure 4-13 shows the sequence of the pins on the 60-pin B2B connector of the MC703
CDMA EV-DO module.
Figure 4-13 Sequence of the pins on the MC703 CDMA EV-DO module
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Mechanics
5.1 Overview
This chapter describes the mechanical dimensions of the MC703 CDMA EV-DO module,
with the following dimensions included:
Mechanical Dimensions of the MC703 CDMA EV-DO Module
Mechanical Dimensions of the B2B Connector
5.2 Mechanical Dimensions of the MC703 CDMA EV-DO
Module
Dimensions: 31±0.20 mm x 45±0.20 mm x 5±0.20 mm
Weight: 9.8 (±0.2) g
Figure 5-1 shows the mechanical dimensions of the MC703 CDMA EV-DO module.
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Figure 5-1 Mechanical dimensions of the MC703 CDMA EV-DO module (unit: mm)
If the MC703 CDMA EV-DO module is required to be compatible with other products, such as the
MU103 module, it is recommended that the mounting hole close to the B2B connector on the user
application board should be designed to be track-shaped, as shown in Figure 5-2.
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Figure 5-2 Recommended shape of the toaling hole close to the B2B connector on the user
application board
Figure 5-3 Mechanical dimensions of the MU103 module
5.3 Mechanical Dimensions of the B2B Connector
The MC703 CDMA EV-DO module adopts the DF12(3.0)-60DS-0.5V(86) 60-pin B2B
connector supplied by HRS, with the pin spacing of 0.5 mm, the stacking height of 3 mm, and
pluggable times of less than 50. The connector can be mated with the
DF12(3.0)-60DP-0.5V(86), DF12(3.5)-60DP-0.5V(86), DF12(4.0)-60DP-0.5V(86), and
DF12(5.0)-60DP-0.5V(86) supplied by HRS.
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Figure 5-4 HRS DF12(3.0)-60DS-0.5V(86) connector on the MC703 CDMA EV-DO module
Figure 5-5 HRS DF12(3.0)-60DP-0.5V(86) mating header on the user board
Table 5-1 DF12 series that are compatible with the MC703 CDMA EV-DO module
Product
Model
Stacking Height
HRS Number
(mm)
Connector used on the MC703
CDMA EV-DO module
DF12(3.0)-60DS-0.5V(86)
3.0
537-0611-1-86
Headers on the interface board
DF12(3.0)-60DP-0.5V(86)
3.0
537-0731-3-86
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Figure 5-6 Dimensions of the connector on the MC703 CDMA EV-DO module (unit: mm)
For more information about the connectors of Hirose, access
http://www.hirose-connectors.com.
Figure 5-7 Dimensions of the connector pad on the user interface board of the MC703 CDMA
EV-DO module
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Acronyms and Abbreviations
AMR
Adaptive Multi-rate
BER
Bit Error Rate
BTS
Base Transceiver Station
B2B
Board-to-Board Connector
CSD
Circuit Switched Data
DSP
Digital Signal Processor
DCE
Data circuit-terminating equipment
DTE
Data terminal equipment
DTR
Data Terminal Ready
DTX
Discontinuous Transmission
EFR
Enhanced Full Rate
EGSM
Enhanced GSM
EMC
Electromagnetic Compatibility
ESD
Electrostatic Discharge
GMSK
Gaussian Minimum Shift Keying
IMEI
International Mobile Equipment Identity
I/O
Input/Output
ISO
International Standards Organization
ITU
International Telecommunications Union
kbps
kbits per second
LED
Light Emitting Diode
MO
Mobile Originated
MT
Mobile Terminated
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NTC
Negative Temperature Coefficient
PCS
Personal Cellular System
PCL
Power Control Level
PCS
Personal Communication System
PPP
Point-to-point protocol
QPSK
Quadrate Phase Shift Keying
RTC
Real Time Clock
UART
Universal asynchronous receiver-transmitter
EV-DO
Evolution-Data Only
VSWR
Voltage Standing Wave Ratio
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