ZTE MG2639 GSM/GPRS Module User Manual MG2639 V1 0en 0314

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MG2639 User Manual
Version：V1.0
Copyright Statement
Copyright © 2010 by ZTE Corporation
All rights reserved.
No part of this publication may be excerpted, reproduced, translated or utilized in any form or by
any means, electronic or mechanical, including photocopying and microfilm, without the prior
written permission of ZTE Corporation.
is the registered trademark of ZTE Corporation. All other trademarks appeared in
this manual are owned by the relevant companies.
ZTE Corporation reserves the right to make modifications on print errors or update specifications
in this manual without prior notice.
ZTE Corporation keeps the right to make the final explanation to this manual.
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第I页
Descriptions of version update
Product version
Document version
MG2639
V1.0
Document No.
Descriptions of
document update
Release for the first
time
Author
Document
version
Date
Written by
1.0
2011-8-22
Zhou Tao
第 II 页
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With strong technical force, ZTE Corporation can provide CDMA/GPRS/WCDMA module
customers with the following all-around technical support:
1. Provide complete technical documentation;
2. Provide the development board used for R&D, test, production, after-sales, etc.;
3. Provide evaluations and technical diagnosis for principle diagram, PCB, test scenarios;
4. Provide test environment;
ZTE Corporation provides customers with onsite supports, and also you could get supports
through telephone, website, instant communication, E-mail, etc.
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Preface
Summary
This document introduces MG2639 module’s product principle diagram, PINs, hardware interface
and module’s mechanical design, which can instruct the users how to quickly and conveniently
design different kinds of wireless terminals based on this type of module.
Target Readers
This document mainly applies to the following engineers:
 System designing engineers
 Mechanical engineers
 Hardware engineers
 Software engineers
 Test engineers
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Contents
GENERAL DESCRIPTION OF MODULE ........................................................................ 1
1.1
INTRODUCTION OF MODULE’S FUNCTIONS ..................................................... 1
1.2
MODULE’S PRINCIPLE DIAGRAM ....................................................................... 2
1.3
ABBREVIATIONS ................................................................................................... 3
DESCRIPTIONS OF MODULE’S EXTERNAL INTERFACES ........................................ 5
2.1
DEFINITIONS OF MODULE’S INTERFACES ........................................................ 5
2.2
ANTENNA INTERFACE ......................................................................................... 6
MODULE’S ELECTRICAL CHARACTERISTICS ........................................................... 8
3.1
DESCRIPTIONS OF LEVELS OF INTERFACE SIGNALS..................................... 8
3.1.1 RESET .......................................................................................................... 8
3.1.2 SIM CARD INTERFACE ............................................................................... 8
3.1.3 AUDIO INTERFACE ..................................................................................... 9
3.1.4 NETWORK SIGNAL INDICATION ................................................................ 9
3.2
MODULE POWER CONSUMPTION .................................................................... 10
3.3
RELIABILITY CHARACTERISTICS ..................................................................... 10
INTERFACE CIRCUIT DESIGN .................................................................................... 11
4.1
RESET AND POWER DESIGN ............................................................................ 11
4.2
UART INTERFACE ............................................................................................... 12
4.3
SIM CARD INTERFACE ....................................................................................... 13
4.4
AUDIO INTERFACE ............................................................................................. 14
MECHANICAL DIMENSIONS ....................................................................................... 15
5.1
APPEARANCE DIAGRAM ................................................................................... 15
5.2
MODULE ASSEMBLY DIAGRAM ........................................................................ 15
5.3
PCB DIMENSIONS .............................................................................................. 16
ANTENNA INTERFACE ................................................................................................ 16
6.1
ANTENNA INSTALLATION .................................................................................. 17
6.2
ANTENNA PAD .................................................................................................... 17
6.3
ANTENNA CONNECTOR .................................................................................... 17
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6.4
ANTENNA SUBSYSTEM ..................................................................................... 18
6.4.1 ANTENNA SPECIFICATIONS .................................................................... 18
6.4.2 CABLE LOSS.............................................................................................. 19
6.4.3 ANTENNA GAIN MAXIMUM REQUIREMENTS ......................................... 19
6.4.4 ANTENNA MATCHING ............................................................................... 19
6.4.5 PCB DESIGN CONSIDERATIONS............................................................. 19
ANTENNA INTERFACE ................................................................................................. 19
OEM/INTEGRATORS INSTALLATIONS ...................................................................... 20
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Figures
Figure 1-1 Module’s principle diagram ............................................................................................ 2
Figure 2-1 Antenna interface diagram............................................................................................. 6
Figure 5-1 MG2639 module’s appearance.................................................................................... 15
Figure 5-2 Module’s assembly diagram ........................................................................................ 15
Figure 5-3 Relevant PCB dimensions ........................................................................................... 16
Tables
Table 1-1 Module’s functions .......................................................................................................... 1
Table 1-1 28Pin stamp-hole definition............................................................................................. 5
Table 4-1 Voltage characteristics .................................................................................................. 11
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1
General description of module
This chapter mainly provides a general description of the module, including basic functions and
logic block diagram.
1.1 Introduction of module’s functions
The maximum operating ambient temperature of the equipment declared by the manufacturer is
75℃
Table 1-1 Module’s functions
Parameter
MG2639
General Features
Frequency Bands
GSM850/EGSM900/DCS1800/PCS1900
Dimensions
30.0×25.0x2.68mm
Weight
7g
Operating Temperature Range
-30°C~+75°C
Storage Temperature Range
-40°C~+85°C
Performance
Operating Voltage Range
3.6V~4.2V/Typical: 3.9V
Idle Current: 2mA
Current Consumption Typically
Call Current: 128mA
Max Current: 300mA
TX Power
RX Sensitivity
GSM850/EGSM900: Class 4 (2W)
DCS1800/PCS1900: Class 1 (1W)
<-106dBm
Interfaces
Connector
Antenna
28Pin Stamp Holes
SMT 50Ω Antenna Connector
Antenna Solder Pad
Integrated Full Duplex UART
AT/Data
SIM Card Interface
1.8V/3.0V
Data Features
GPRS
Class 10
Mobile Station
Class B
Max Downlink
85.6kbps
Max Uplink
42.8kbps
Protocol
Internal TCP/IP&UDP
Embedded FTP
SMS Features
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Parameter
MG2639
Support TEXT/PDU Mode
Point-to-point MO/MT
SMS Cell Broadcast
Voice Features
Vocoders HR/FR/EFR/AMR
Echo Cancellation/Volume Control/DTMF
AT Command Set
GSM 07.05/GSM 07.07/ZTE Proprietary AT Commands
1.2 Module’s principle diagram
The block diagram is used to describe the module’s major logic functions:
Figure 1-1 Module’s principle diagram
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1.3 Abbreviations
ADC
AFC
AGC
ARFCN
ARP
ASIC
BER
BTS
CDMA
CDG
CS
CSD
CPU
DAI
DAC
DCE
DSP
DTE
DTMF
DTR
EDGE
EFR
EGSM
EMC
EMI
ESD
ETS
FDMA
FR
GPRS
GSM
HR
IC
IMEI
ISO
ITU
Analog-Digital Converter
Automatic Frequency Control
Automatic Gain Control
Absolute Radio Frequency Channel Number
Antenna Reference Point
Application Specific Integrated Circuit
Bit Error Rate
Base Transceiver Station
Code Division Multiple Access
CDMA Development Group
Coding Scheme
Circuit Switched Data
Central Processing Unit
Digital Audio interface
Digital-to-Analog Converter
Data Communication Equipment
Digital Signal Processor
Data Terminal Equipment
Dual Tone Multi-Frequency
Data Terminal Ready
Enhanced Data Rate for GSM Evolution
Enhanced Full Rate
Enhanced GSM
Electromagnetic Compatibility
Electro Magnetic Interference
Electronic Static Discharge
European Telecommunication Standard
Frequency Division Multiple Access
Full Rate
General Packet Radio Service
Global Standard for Mobile Communications
Half Rate
Integrated Circuit
International Mobile Equipment Identity
International Standards Organization
International Telecommunications Union
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第3页
LCD
LED
MCU
MMI
MS
MTBF
PCB
PCL
PCS
PDU
PLL
PPP
RAM
RF
ROM
RMS
RTC
SIM
SMS
SMT
SRAM
TA
TDMA
TE
UART
UIM
USB
USIM
VSWR
ZTE
第4页
Liquid Crystal Display
Light Emitting Diode
Machine Control Unit
Man Machine Interface
Mobile Station
Mean Time Before Failure
Printed Circuit Board
Power Control Level
Personal Communication System
Protocol Data Unit
Phase Locked Loop
Point-to-point protocol
Random Access Memory
Radio Frequency
Read-only Memory
Root Mean Square
Real Time Clock
Subscriber Identification Module
Short Message Service
Surface Mount Technology
Static Random Access Memory
Terminal adapter
Time Division Multiple Access
Terminal Equipment also referred it as DTE
Universal asynchronous receiver-transmitter
User Identifier Management
Universal Serial Bus
Universal Subscriber Identity Module
Voltage Standing Wave Ratio
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2
Descriptions of module’s external interfaces
This chapter mainly describes the module’s external interfaces, such as B2B connector, MINI
PCI-E, stamp-hole connector, etc.
2.1 Definitions of module’s interfaces
No.
Definition
GND
RF_ANT
GND
RING
GND
VBAT
RSSI_LED
RTS
Table 1-1 28Pin stamp-hole definition
I/O
Description
Remarks
GND
I/O
RF antenna
GND
Ring signal
Level varies upon an incoming call or
indication
receipt of text message.
GND
Work voltage
Internal pull-down, LED on at high
level, need add triode driver
externally.
-power-on status: LED off;
Network signal
-network searching status: LED
indication
blinks at 3Hz
-Idle status: LED blinks at 1Hz
-Traffic status (call, data): LED blinks
at 5Hz.
Request to send
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9
10
11
12
13
14
15
16
CTS
DCD
CARD_RST
CARD_CLK
CARD_DATA
V_CARD
RXD
TXD
I/O
Clear to send
Carrier detection
card reset
card clock
card data
Card voltage
Receive data
Transmit data
17
SYSRST_N
Reset signal
18
SPK_2P
19
SPK_1P
20
SPK_1N
21
MIC_2P
22
MIC_1P
23
MIC_1N
Headset Speaker +
Microphone
speaker +
Microphone
speaker Headset
microphone +
Receiver
microphone +
Receiver
microphone -
24
PWRKEY_N
25
DTR
26
27
28
DSR
V_MSM
GND
power on-off
Valid at low level, need connect an
open collector/drain switch.
Valid at low level, need connect an
open collector/drain switch.
Data terminal ready
_WAKEUP
Data set ready
2.8V
GND
2.2 Antenna interface
MG2639 module provides two kinds of antenna interface:


PCB welding pad
Antenna test socket
PCB welding pad adopts 50Ω RF shield cable to connect the module and the antenna, in order to
reduce the cost. However, using this method can’t completely shield the electromagnets, which
might have slight influence on RF signal quality. Please note that there should not be strong
radiation near the welding pad. Meantime, during the welding, make sure the core of RF shield
cable must connect with RF welding pad, and RF shield cable’s shield metal mask must be welded
to the module’s GND. During the welding, the GND must be welding securely, otherwise the core is
easily broken due to the shaking of shield cable. See figure 2-1 for RF welding pad antenna.
Figure 2-1 Antenna interface diagram
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3
Module’s electrical characteristics
This chapter mainly introduces the module’s electrical characteristics, including the level, power
consumption, reliability of module’s interfaces.
3.1 Descriptions of levels of interface signals
It describes the MAX, MIN and typical value of the level of module’s external interfaces.
3.1.1
Reset
SYSRST_N PIN is used to reset the module’s main chip, and SYSRST_N signal needs to be
pulled down 500ms to reset the module. Likewise, this pin is required to pull up 2.8V (Max: 2.9V,
Min: 2.7V, typical: 2.8V) through 4.7K resistor inside the module, and pull down 0.1uF capacitance
to GMD filtering, and it’s required to externally connect dynatron driver.
MG2639 module provides 1CH serial interface, supports 8-wire serial BUS interface or 4-wire
serial BUS interface or 2-wire serial interface. The module communicates with the external devices
and inputs AT commands through UART interface.
Classification Definition
I/O
Description
Min.
Typical
Max.
voltage voltage voltage
UART
RXD
Receive data
2.4V
2.8V
3.1V
/RTS
Request to send
2.4V
2.8V
3.1V
TXD
Transmit data
2.4V
2.8V
3.1V
/DTR
Data terminal
2.4V
2.8V
3.1V
ready_WAKEUP
/CTS
Clear to send
2.4V
2.8V
3.1V
RING
Ring signal
2.4V
2.8V
3.1V
indication
/DSR
Data set ready
2.4V
2.8V
3.1V
DCD
Carrier detection
2.4V
2.8V
3.1V
3.1.2
SIM Card Interface
MG2639 module baseband processor integrates SIM card interface conforming to ISO 7816-3
standard, and it’s compatible with SIM card with two voltages 1.8V/3.0V and reserves SIM card
interface signal on the stamp-hole PIN.
Users should note that SIM card’s electrical interface definitions are the same as SIM card socket’s
definitions.
Figure 3-1 Standard SIM card PIN Definitions Diagram
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Classification
SIM
3.1.3
Definition
V_CARD
CARD_RST
GND
CARD_CLK
CARD_DATA
I/O
I/O
Description
Card voltage
Card reset
GND
Card clock
Card data
Remarks
1.8V/3V; maximum
output current 20mA
Audio Interface
MG2639 module supports 2CH audio signal inputs/outputs. It features in handheld microphone,
handheld receiver or hands-free speaker and earpiece microphone/receiver function. These two
MIC inputs are coupled in AC domain and the offset voltage is added inside, and they should
directly connect with the receiver.
The two receiver interfaces SPK_1 and SPK_2 are both
differential interfaces with 32Ωresistance; SPK_2 is single-ended interface with 32Ω resistance.
See the audio interface signals in the table below:
Classification
AUDIO
3.1.4
Definition
MIC_1N
MIC_1P
MIC_2P
SPK_1N
SPK_1P
SPK_2P
I/O
Description
Receiver’s MicrophoneReceiver’s Microphone+
Headset microphone +
Receiver’s speakerReceiver’s speaker+
Headset speaker +
Remarks
The first differential receiver
used for the default audio
input/output and the second
receiver used for headset
audio input/output.
Network Signal Indication
RSSI_LED Internal pull-down, LED turns on at high level, and need add triode driver externally.
-Power-on status: LED off;
-Network searching status: LED blinks at 3Hz
-Idle status: LED blinks at 1Hz
-Traffic status (call, data): LED blinks at 5Hz.
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第9页
SIG_LED PIN output status is defined according to the software protocol, and users could judge
the module’s work status according to SIG_LED status. SIG_LED PIN is common I/O port, which
can’t directly drive LED, and it needs to work with dynatron.
3.2 Module Power Consumption
It describes the module’s power consumption under each status:
No.
Test items
Power-off leakage current
(Normal power-off)
Average standby current (no
operation after power-on)
Average standby current (after
talk)
Talk current
Typical value（mA）
50uA
2mA
2mA
128mA
3.3 Reliability Characteristics
It describes the temperature, including working temperature and storage temperature.
Working temperature: -30°C~+75°C
Storage temperature: -40°C~+85°C
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4
Interface circuit design
It provides the reference design circuit of the interface and precautions according to the module’s
functions.
4.1 Reset and power design
See the reference design principle of power and reset circuit in figure 4-1:
Figure 4-1 Power and reset circuit reference design principle diagram

Power design
MG2639 module is powered by VBAT. See the voltage characteristics in table 4-1.
Table 4-1 Voltage characteristics
Classification
MIN
Typical
MAX
Input voltage
3.4V
3.9V
4.25V
Input current
2mA（average）
--
300mA（depends on the
network signal）
D1 is an enabled LDO with 6V~9V input voltage. Through adjusting R31and R41, it could make
V_MAIN at 3.9V to power the module, and it’s required to place at least one 1000uF tantalum
capacitor at V-Main input pin. The module is very strict with the requirements on power and GND,
therefore it’s requested that filtering must be performed to power and GND, and the power ripple
must be controlled under 50Mv. Do not use LDO to power any other part in the system because it
might affect the RF performance. Finally, select the power cables with at least 80mil traces during
the layout and keep the integrality of ground line.
If MG2639 module uses other LDO, make sure the output current is larger than 2A.
 Power on
The module is under power-off status after it’s normally powered on. To turn on the module,
provide a 2s-5s low level pulse to PWRKEY_N pin when the module is OFF. If one 1K resistance is
connected with PWRKEY_N, the module can be turned on after power supply.
Note: ON/OFF and /Reset need to connect an open collector/drain gate.
It’s not required to operate /RESET signal upon power-on.
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 Power off
To turn off the module, use AT command “AT+ZPWROFF” or provide a 2s~5s low level pulse to
PWRKEY_N PIN.
 Reset
Use the above method to firstly “power-off” and then “power-on” to hard reset the module.
If the external reset function has to be used, low level pulse lasting at least 500ms should be
provided to /RESET Pin within 2 seconds after the module is turned on. Before that, the external
I/O signal must be kept at low level. See the reset circuit design in figure 4-1.
If SYSRST_N Pin is not used, suspend the pin.
See the module’s power-on/off time sequence in the diagram below:
Figure 4-1 Power-on/off time sequence
Table 4-2 Power-on/off circuit time characteristics
ta
tb
tc
td
te
20ms
10ms
3s
3s
6s
 V_MSM
There is a voltage output pin with current adjuster, which can be used to supply external power to
the board. The voltage of this pin and the voltage of baseband processor/memory come from the
same voltage adjuster. The voltage output is available only when the module is on. The normal
output voltage is 2.85V, and the user should absorb the current from this pin as little as possible
(less than 10mA). Generally, it is recommended to use this pin to match the level.
When the module is off, the output voltage for this pin remains unchanged, but the impedance is
rather high. Therefore, it’s not recommended to use this pin for other purposes.
 Other advice
In order to make sure the data is saved safely, please don’t cut off the power when the module is
on. It’s strongly recommended to add battery or soft switch like the power key on the module.
4.2 UART interface
Note: when using the module for overall design, the users should export UART for module’s
software upgrade.
MG2639 module provides an integrated full duplex UART interface and an accessorial full duplex
UART interface, whose maximal data rate is 115200bps. External interface is 2.8VCMOS level
signal, their logic functions conform to RS-232 interface standard. These two UART could be used
as serial port data interfaces, usually UART1 is used for AT commands, data transmission and
updating software of module.
The module’s output IO level is 2.8V，it needs to transfer the level when connecting with standard
3.3V or 5V logic circuit（such as MCU or RS232 drive chip MAX3238 etc）, Figure 4-3 shows the
COM port level transfer circuit. The converted signal should connect with MCU or RS232 drive chip
第 12 页
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directly. Common low power switch triode should be applied as the crystal triode shown in Figure
4-3. Please note that the module won’t enter sleep mode as RXD is at high level.
Figure 4-3 UART interface reference design block diagram
Remarks: the module doesn’t support USB.
4.3 SIM card interface
MG2639 module supports 1.8V or 3V SIM card, and there are 4 pins at the terminal of the
card. V_CARD is used to supply SIM card. It’s strongly recommended to add ESD to
protect SIM card in hostile environments.
Figure 4-4 SIM card circuit reference design diagram
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第 13 页
NOTE: The SIM card PCB wiring should be laid closely around the module as much as possible to
prevent the interference sources from affecting the SIM card’s reading/writing. Besides, Since the
SIM card needs to be designed to meet the requirements of ESD performance and avoid the
damage of the SIM card caused by ESD, it’s recommended to add TVS components on 4-CH SIM
card signals, meanwhile, the signal wires need go through TVS component before entering the
module’s baseband processor during the layout.
4.4 Audio interface
MG2639 module provides audio input and output interfaces through its PINs. There are 2
Speaker interfaces and 2 Microphone interfaces. Only one pair I/O works at the same time. See
the audio interface circuit in figure 4-5.
Figure 4-5 Audio interface circuit reference design principle diagram
 Microphone
The system connector provides two microphone interfaces MIC_1 and MIC_2, MIC_1 is differential
interface; while MIC_2 is single ended interface. These two inputs are coupled in AC domain and
2.0V offset voltage are added inside, therefore they should directly connect to the microphone.
 Speaker
The system connector provides two speakers, SPK_1 & SPK_2. SPK_1 is differential interface,
while SPK_2 is single-ended interface. They both have 32 ohm impedance.
GSM/GPRS module audio interface is designed as below:
 Design of the audio interface on the receiver
Select the microphone with the sensitivity lower than -51.5dB since the output impedance for
SPK_1 is 32 ohm and the max. gain in MIC_1 reaches 51.5dB. The level of MIC_1P PIN is about
2.2V.
Note: if other kind of audio input method is adopted, the input signal should be within 0.5V. If the
signal voltage is lower than 0.5V, then the pre-amplifier should be added. If the signal voltage is
higher than 0.5V, then network attenuation should be added.
 Design of the audio interface on the headset
Select the microphone with the sensitivity lower than -51.5dB since the output impedance for
SPK_2 is 32 ohm and the max. gain in MIC_2 reaches 51.5dB. The level of MIC_2P PIN is about
2.2V. The design is just the same as that on the receiver
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5
Mechanical dimensions
It introduces the module’s mechanical dimensions.
5.1 Appearance Diagram
Figure 5-1 MG2639 module’s appearance

Dimensions（L×W×H）：30.0×25.0×2.68mm

Weight：7g
5.2 Module Assembly Diagram
See the module assembly diagram in figure 5.2.
Figure 5-2 Module’s assembly diagram
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5.3 PCB Dimensions
See the module’s PCB dimensions in figure 5-3.
Figure 5-3 Relevant PCB dimensions
Precautions while designing PCB:
1）Copper-clad and wiring are forbidden at the area below the RF test points.
2）For the convenience of testing and maintenance, it might be necessary to drill holes on the PCB.
Antenna Interface
The RF interface of the MG2639 Module has an impedance of 50 . The module is capable of sustaining a
total mismatch at the antenna connector or pad without any damage, even when transmitting at maximum
RF power.
The external antenna must be matched properly to achieve best performance regarding radiated power,
DC-power consumption, modulation accuracy and harmonic suppression. Antenna matching networks are
not included on the MG2639 Module PCB and should be placed in the host application.
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Regarding the return loss, the Module provides the following values in the active band:
Table 6-1 Return Loss in the Active Band
Return Loss of
Recommended Return Loss of
State of Module
Module
Application
Receive
Transmit
≥ 8dB
not applicable
≥ 12dB
≥ 12dB
The connection of the antenna or other equipment must be de coupled from DC voltage. This is necessary
because the antenna connector is DC coupled to ground via an inductor for ESD protection.
6.1 Antenna Installation
To suit the physical design of individual applications, the MC2261 offers two alternative approached to
connecting the antenna:
■ Recommended approach: MM9329-2700B antenna connector manufactured by MURATA assembled on
the component side of the PCB (top view on Module). See Section 4.3 for details.
■ Antenna pad and grounding plane placed on the bottom side. See Section 4.2 for details.
The MM9329-2700B connector has been chosen as antenna reference point (ARP) for the ZTEMT
reference equipment submitted to type approve the MG2639 Module. All RF data specified throughout this
manual are related to the ARP. For compliance with the test results of the ZTEMT type approval you are
advised to give priority to the connector, rather than using the antenna pad.
Note: Both solutions can be applied alternatively. This means,if the antenna is connected to the pad, then
the connector on the Module must be left empty,and when the antenna is connected to the Module
connector, the pad is useless,
6.2 Antenna Pad
The antenna pad of the module is soldered to the board on the customer design to connect with RF line.
For proper grounding connect the RF line to the ground plane on the bottom of the MG2639 Module which
must be connected to the ground plane of the application.
Consider that according to GSM recommendations as 50Ω connector is mandatory for type approval
measurements. It must be ensured that the RF line which is connected to antenna pad should be controlled
on 50Ω.
Notes on soldering
■ To prevent damage to the Module and to obtain long-term solder joint properties, you are advised to
maintain the standards of good engineering practice for soldering.
Material Properties
■ MG2639 Module PCB: FR4
■ Antenna pad: Gold plated pad
6.3 Antenna connector
The MG2639 Module uses a microwave coaxial connector supplied by Murata Ltd. The product name is
MM9329-2700B. The position of the antenna connector on the Module PCB can be seen in Figure 6-3.
Figure 6-3 Specification of MM9329-2700B connector
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第 17 页
Table 6-2 Product specifications of MM9329-2700B connector
Part
Number
Rated
Volta
(V)
MM932
-2700B
250
Contact
Resista
ce
(ohm)
0.015
max.
Withstand
ng
Voltage
(rms)
Insulati
Resistan
ce
(M
ohm)
Durabil
ty
(cycles)
Freque
cy
Rating
(GHz)
Temperat
re
Range
(degree C)
300 (AC)
500 min.
100
DC - 6.0
-40~+90.
VSWR
Cente
Conta
ct
Outer
Conta
ct
Insulato
1.2 max.
(DC~3G
z)
Coppe
Alloy
Gold
plated
Coppe
Alloy
Silver
plated
Engineer
ng
plastic
6.4 Antenna Subsystem
The antenna sub-system and its design is a major part of the final product integration. Special attention and
care should be taken in adhering to the following guidelines.
6.4.1
Antenna Specifications
Choice of the antenna cable (type, length, performance, RF loss, etc) and antenna connector (type + losses)
can have a major impact on the success of the design.
第 18 页
©ZTE CORPORATION All rights reserved
This document is not allowed to
transmit without ZTE
Corporation’s permission.
6.4.2
Cable Loss
All cables have RF losses. Minimizing the length of the cable between the antenna and the RF connectors
on the module will help obtain superior performance. High Quality/Low loss co-axial cables should be used
to connect the antenna to the RF connectors. Contact the antenna vendor for the specific type of cable that
interfaces with their antenna and ask them to detail the RF losses of the cables supplied along with the
antenna. Typically, the cable length should be such that they have no more than 1-2dB of loss. Though the
system will work with longer (lossy) cables, this will degrade GSM system performance. Care should also
be taken to ensure that the cable end
connectors/terminations are well assembled to minimize losses and to offer a reliable, sturdy connection to
the Module sub-system. This is particularly important for applications where the module is mounted on a
mobile or portable environment where it is subject to shock and vibration.
6.4.3
Antenna Gain Maximum Requirements
Our FCC Grant imposes a maximum gain for the antenna subsystem: 2 dBi for the GSM850 band and 2dBi
for the 1900 band.
Warning: Excessive gain could damage sensitive RF circuits and void the warranty.
6.4.4
Antenna Matching
The module’s RF connectors are designed to work with a 50-ohm subsystem. It is assumed that the antenna
chosen has matching internal to it to match between the 50-ohm RF connectors and the antenna impedance.
6.4.5
PCB Design Considerations
• The antenna subsystem should be treated like any other RF system or component. It should be isolated as
much as possible from any noise generating circuitry including the interface signals via filtering and
shielding.
• As a general recommendation all components or chips operating at high frequencies such as
micro controllers, memory, DC/DC converts and other RF components should not be placed too close to the
module. When such cases exist, correct supply and ground de-coupling areas should be designed and
validated.
• Avoid placing the components around the RF connection and close to the RF line between the RF antenna
and the module.
• RF lines and cables should be as short as possible.
• If using coaxial cable it should not be placed close to devices operating at low frequencies. Signals like
charger circuits may require some EMI/RFI decoupling such as filter capacitors or ferrite beads.
• Adding external impedance matching to improve the match to your cable and antenna assemblies is
optional. Please contact the antenna vendor for matching requirements.
• For better ESD protection one can implement a shock coil to ground and place it close to the RF
connector.
Antenna Interface
Proper measures should be taken to reduce the access loss of effective bands, and good shielding should be
established between the external antenna and the RF connector. Besides, the external RF cables should be
kept far away from all interference sources such as high-speed digital signal or switch power supply.
According to mobile station standard, stationary wave ratio of antenna should be between1.1 to 1.5, and
input impedance is 50 ohm. Different environments may have different requirements on the antenna’s gain.
Generally, the larger gain in the band and smaller outside the band, the better performance the antenna has.
Isolation degree among ports must more than 30dB when multi-ports antenna is used. For example, between
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第 19 页
two different polarized ports on dual-polarized antenna, two different frequency ports on dual-frequency
antenna, or among four ports on dual-polarized dual-frequency antenna, isolation degree should be more
than 30dB.
OEM/Integrators Installations
Clear and specific instructions describing the conditions, limitations and procedures for third-parties to use
integrate the module into a host device.
Important compliance information for North American users
The MG2639 Module has been granted modular approval for mobile applications. Integrators may use the
MG2639 Module in their final products without additional FCC certification if they meet the following
conditions. Otherwise, additional FCC approvals must be obtained.
1. At least 20cm separation distance between the antenna and the user’s body must be maintained at all
times.
2. To comply with FCC regulations limiting both maximum RF output power and human exposure to RF
radiation, the maximum antenna gain including cable loss in a mobile-only exposure condition must not
exceed 2dBi in the cellular band and 2dBi in the PCS band.
3. The MG2639 Module and its antenna must not be co-located or operating in conjunction with any other
transmitter or antenna within a host device.
4. A label must be affixed to the outside of the end product into which the MG2639 Module is
incorporated, with a statement similar to the following:·ForMG2639: This device contains FCC ID:
Q78-MG2639.
5. A user manual with the end product must clearly indicate the operating requirements and conditions
that must be observed to ensure compliance with current FCC RF exposure guidelines.
The end product with an embedded MG2639 Module may also need to pass the FCC Part 15 unintentional
emission testing requirements and be properly authorized per FCC Part 15.
Note: If this module is intended for use in a portable device, you are responsible for separate
approval to satisfy the SAR requirements of FCC Part 2.1093.
第 20 页
©ZTE CORPORATION All rights reserved
This document is not allowed to
transmit without ZTE
Corporation’s permission.
8. EU Regulatory Conformance
Hereby, ZTE CORPORATION declares that this device is in compliance with the essential requirements
and other relevant provisions of Directive 1999/5/EC.
For the declaration of conformity, visit the Web site www.zte.com
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permission.
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第 21 页

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