19 Table511 error rate limit and minimum quantity of samples in each fullspeed channel .... 22 Table517 Error rate limit and minimum quantity of samples in each channel .... For PCS 1
Trang 1VERSION:V1.3
ZTE CORPORATION
Trang 2Copyright © 2007 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
Trang 3The module website http:// module.ztemt.com.cn provides the relevant industry information and module technical documentation. The authorized module customers could download the latest technical documentation for our website. If you have more requirements, you could send an Email to module@zte.com.cn. You can also call us at 075586360280 for more supports
Trang 5Document version V1.0 (20070531)
Released formally for the 1st time
Trang 61 SUMMARY 8
2 ABBREVIATION 8
3 APPEARANCE AND FRAMEWORK 9
4 FUNCTIONS AND INTERFACES 10
5 TECHNICAL SPECIFICATIONS 10
5.1 COMMUNICATION PROTOCOLS AND TECHNICAL SPECIFICATIONS 10
5.2 RFEMISSION 12
5.2.1 Frequency and phase bias 12
5.2.2 Frequency and phase bias under multipath interference 12
5.2.3 Tx peak value power and pulse envelop timing 12
5.2.4 TX output spectrum 15
5.3 RFRECEIVING 17
5.3.1 Reference sensitivity 17
5.3.2 Available input level 19
5.3.3 Cochannel suppression 19
5.3.4 Adjacent channel suppression 20
5.3.5 Intermodulation suppression 21
5.3.6 Blocking and spurious respond 21
5.4 RECOMMENDATION OF ANTENNA SPECS 23
5.5 POWER SUPPLY 23
5.5.1 Input voltage 23
5.6 WORKING CONDITIONS 23
6 RELIABILITY TEST STANDARD 24
6.1 LOW TEMPERATURE RUNNING EXPERIMENT 24
6.2 LOW TEMPERATURE STORAGE EXPERIMENT 24
6.3 HIGH TEMPERATURE RUNNING EXPERIMENT 24
6.4 HIGH TEMPERATURE STORAGE EXPERIMENT 24
6.5 HIGH TEMPERATURE,HIGH HUMIDITY EXPERIMENT 24
6.6 HIGHLOW TEMPERATURE STRIKING EXPERIMENT 24
7 EMC/EMI TEST STANDARD 25
7.1 STATIC DISCHARGE(ESD)INTERFERENCE IMMUNITY EXPERIMENT 25
7.2 RFELECTROMAGNETIC EMISSION INTERFERENCE IMMUNITY EXPERIMENT 25
7.3 ELECTRICAL FAST TRANSIENT/BURST IMMUNITY EXPERIMENT 25
7.4 LIGHTNING AND SURGE STRIKE IMMUNITY EXPERIMENT 26
7.5 RFELECTROMAGNETIC FIELD CONDUCTION INTERFERENCE IMMUNITY EXPERIMENT 26
7.6 RADIATED DISTURBANCE EXPERIMENT 26
7.7 CONDUCTED DISTURBANCE EXPERIMENT 26
Trang 7Figure 31 appearance of MG3006 module 10 Figure51 Power/time envelop framework under normal test condition 14 Figure52 power/time envelop framework under ultra test condition 15
Trang 8Table 51 communication protocols and technical specifications 10
Table52 frequency band 11
Table53 interval assignment 11
Table54 encoding modes 11
Table55 data rate 11
Table56 frequency bias 12
Table57 error rate tested in each channel of GSM 850 and GSM 900 18
Table58 error rate tested in each channel of DCS 1800 and PCS 1900 18
Table59 error rate tested in each channel of GSM 850 and GSM 900 18
Table510 error rate tested in each channel of CS 1800 and PCS 1900 19
Table511 error rate limit and minimum quantity of samples in each fullspeed channel 19
Table 512 error rate limit and minimum quantity of samples in each halfspeed channel of GSM 850 and GSM 900 20
Table513 error rate limit and minimum quantity of samples in each halfspeed channel of DCS 1800 and PCS 1900 20
Table514 the useless signal level of GSM 900 and DCS 1800 21
Table515 The useless signal level of PCS 1900 22
Table516 The useless signal level of GSM 850 22
Table517 Error rate limit and minimum quantity of samples in each channel 22
Table518 recommended antenna specs 23
Table519 input voltage 23
Table71 static experiment level 25
Table72 emission antiinterference experiment level 25
Table73 Electrical fastchanged pulse group antiinterference experiment level 25
Table74 Lightning and surge strike antiinterference experiment 26
Table75 conduction antiinterference experiment level 26
Trang 9ZTE MG3006 modules is a type of GSM/GPRS wireless module supports Quad Band, with abundant voice, SMS, data service functions and so on. The modules can be applied in data transmission, wireless POS, security, lottery machine, autometering, wireless fax, small switch, tobacco machine, information machine, wireless AD, wireless media, medical ward, remote monitoring, railway terminals, intelligent electronic products and vehicletracking systems etc.
This document take MG3006 module as an example, introduces the appearance, hardware
Trang 11l Support TCP/IP protocol
5 Technical specifications
5.1 Communication protocols and technical specifications
The communication protocols and technical specifications of MG3006 modules is as following table 51:
Table 51 communication protocols and technical specifications Access mode GSM
Techspec GSM phase 2/2+
Trang 12frequency
interval
45MHz for GSM 850 45MHz for EGSM 900 95MHz for DCS 1800 80MHz for PCS 1900 Voice encoding – Half rate (HR)
– Full rate (FR) – Enhanced Full rate (EFR) – Adaptive MultiRate (AMR)
l MG3006 frequency band : GSM 850/EGSM 900/DCS 1800/PCS 1900 MHz. There frequency bands are shown in table 52. Data transmission rate depends on interval assignment and channel encoding of GPRS.
Table52 frequency band name Tx frequency band(MHz) Rx frequency band (MHz)
time
GPRS encoding modes supported by MG3006 module are as following table 54:
Table54 encoding modes Encoding modes Data rate(kbps)
Trang 135.2 RF emission
5.2.1 Frequency and phase bias
The frequency and phase bias of transmitter means the difference between the actual frequency and phase values and the theoretic ones.
Table56 frequency bias GSM 850 and GSM 900 DCS 1800 PCS 1900
Spread
condition
Allowable frequency bias
Spread condition
Allowable frequency bias
Spread condition
Allowable frequency bias RA250 ±300Hz RA130 ±400Hz RA130 ±420Hz
HT100 ±180Hz HT100 ±350Hz HT100 ±370Hz
TU50 ±160Hz TU50 ±260Hz TU50 ±280Hz
TU3 ±230Hz TU1.5 ±320Hz TU1.5 ±330Hz
l GSM 850 and GSM 900:
Trang 14l DCS 1800:
Trang 15l PCS 1900:
Under the same frequency and test condition, the difference between two TX carrier peak value power of closer power control level should be no less than 0.5dB and no more than 3.5dB. For PCS
1900, when power level is 3, the difference between two TX carrier peak value power, whose power control level is 30 and 31 respectively control level is 30 or 31, should be no less than 0dB and no more than 2dB
Under normal and ultra test condition, power/time envelop on each power control level should be in the power/time envelop range shown in following figure.
Trang 16The power level on GSM 850 and GSM 900 modulation sideband should not exceed following table:
Trang 17The power level on PCS1900 modulation sideband should not exceed following table:
The power level on GSM 850 and GSM 900 power switch sideband should not exceed following table:
The power level on DCS1800 power switch sideband should not exceed following table:
Trang 18l The tested max current level should be no larger than 71dBm in frequency range 1930MHz~ 1990MHz
5.3 RF receiving
5.3.1 Reference sensitivity
l Fullspeed traffic channel
The reference sensitivity of fullspeed traffic channel(TCH/FS)means the smallest input electrical level of receiver under stated BER or FER condition.
When input level is the reference sensitivity level (102dBm), the FER of reference sensitivity in fullspeed traffic channel, data channel and control cannel under different conditions and different channels can not exceed the limit value displayed in following table.
Error rate tested in each channel of GSM 850 and GSM 900 is as following table 57:
Trang 19When input level is the reference sensitivity level (102dBm), the FER of reference sensitivity in halfspeed traffic channel, data channel and control cannel under different conditions and different channels can not exceed the limit value displayed in following table.
Error rate tested in each channel of GSM 850 and GSM 900 is as following table59:
Table59 error rate tested in each channel of GSM 850 and GSM 900
Error rate tested in each channel of DCS 1800 and PCS 1900 is as following table510
Trang 20GSM 850 and GSM 900 DCS 1800 and PCS 1900 Spread condition FER limit (%) Minimum
quantity of samples
FER limit (%) Minimum
quantity of samples
When useless signal is 9dB less than useful one, the error rate tested in each fullspeed channel should not exceed values given in following table. The error rate limit and minimum quantity of samples are shown in table 511:
Table511 error rate limit and minimum quantity of samples in each fullspeed channel
When useless signal is 9dB less than useful one, the error rate tested in each halfspeed channel should not exceed values given in following table. Error rate limit and minimum quantity
Trang 21and GSM 900
Error rate limit and minimum quantity of samples in each halfspeed channel of DCS 1800 and PCS 1900 are shown in table 513:
When 200kHz adjacent frequency interference signal is 9dB higher than useful signal, 400kHz interference signal is 41dB higher than useful signal, error rate tested in each channel should not exceed the values displayed in following table:
GSM 850 and GSM 900 DCS 1800 and PCS 1900 interfer
ence channel
Measure type FER limit (%)
Minimum quantity of samples
FER limit (%) Minimum
quantity of samples TCH/FS FER 6.742*α 8900 3.371*α 17800
Trang 22Intermodulation suppression means if there are two or more useless signal that has special frequency relationship with useful signal, the capability that performance could not less than fixed target when receiver incept useful modulation signal.
Error rate in each channel should not exceed the given values in following table:
GSM 850 and GSM 900 DCS 1800 and PCS 1900 Channel/spread
condition
Measure type
FER limit (%)
Minimum quantity of samples
FER limit (%)
Minimum quantity of samples
The useless signal level of GSM 900 and DCS 1800 is shown in table 514:
Table514 the useless signal level of GSM 900 and DCS 1800
The useless signal level of PCS 1900 is shown in table 515:
Trang 23GSM 850 and GSM 900 DCS 1800 and PCS 1900 channel Measure
type
FER limit(%) minimum
quantity of samples
FER limit (%) minimum
quantity of samples TCH/FS II
4. for GSM 900 in the range of 100kHz~915MHz and 980MHz~12.75GHz, under normal test
Trang 24condition, 24 failed frequencies are permitted;if failed frequencies continue as a group, the number of frequencies in each group could not more than 3.
5. for DCS 1800 in the range of 100kHz~785MHz and 1920MHz~12.75GHz, under normal test condition, 24 failed frequencies are permitted;if failed frequencies continue as a group, the number of frequencies in each group could not more than 3.
6. for GSM 850 in the range of 100kHz~1910MHz and 2010MHz~12.75GHz, under normal test condition, 24 failed frequencies are permitted;if failed frequencies continue as a group, the number of frequencies in each group could not more than 3.
Upwards failed frequencies are spurious respond frequencies, when the interference signal level decrease to 70dBμV(emf)at these frequencies, error rate of mistaken events should not exceed values given in table 617
5.4 Recommendation of antenna specs
The recommended antenna specs are as following table 518:
Table518 recommended antenna specs VSWR 1.5:1 maximum
Trang 267.1 Static discharge(ESD)interference immunity experiment
Experiment level:stated experiment levels are shown in table71,this product use level 4.
Table71 static experiment level Touch discharge Air discharge
Peak value of voltage (kV) Repeat ratio(kHz)
Trang 27Experiment level:stated experiment levels are shown in table74,this product use level 2.
Table74 Lightning and surge strike antiinterference experiment Level Opencircuit experiment voltage(kV)
l Reference standard:YD/T1169.12001;GB9254:1998