Wistron NeWeb IMG2 IMG2 LTE module User Manual 1
Wistron NeWeb Corporation IMG2 LTE module 1
Contents
- 1. Doc-User Manual_R2.pdf
- 2. Doc-User Manual_statements.pdf
Doc-User Manual_R2.pdf
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IMG2 User Guide V1.0
Author: Wistron NeWeb Corporation
Revision: 1.0
Revision Date: 2018/9/20
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© Wistron NeWeb Corporation
THIS DOCUMENT AND THE INFORMATION CONTAINED HEREIN IS PROPRIETARY AND IS THE
EXCLUSIVE PROPERTY OF WNC AND SHALL NOT BE DISTRIBUTED, REPRODUCED, OR
DISCLOSED IN WHOLE OR IN PART WITHOUT PRIOR WRITTEN PERMISSION FROM WNC.
LIMITATION OF LIABILITY
THIS DOCUMENT AND THE INFORMATION CONTAINED HEREIN IS PURELY FOR DESIGN
REFERENCE AND SUBJECT TO REVISION BY WNC AT ANY TIME. NOTHING IN THIS
DOCUMENT SHALL BE CONSTRUED AS GRANTING ANY WARRANTY OR RIGHT TO USE THE
MATERIAL CONTAINED HEREIN WITHOUT WNC’S PRIOR EXPRESS WRITTEN CONSENT. WNC
SHALL NOT BE LIABLE FOR ANY USE, APPLICATION OR DEVELOPMENT DERIVED FROM THE
MATERIAL WITHOUT SUCH PRIOR EXPRESS WRITTEN CONSENT.
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Contents
Contact Information ........................................................................................................ 2
Revision History .............................................................................................................. 2
Contents ......................................................................................................................... 4
1. Introduction ........................................................................................................... 6
1.1. LTE IMG2 Overview .............................................................................................. 6
1.2. LTE IMG2 Design Reference ................................................................................ 15
1.3. LTE IMG2 Antenna Design .................................................................................. 18
1.4. LTE IMG2 Test Procedure for Design Verification ............................................... 19
1.5. HDK Overview ..................................................................................................... 26
1.5.1. Overview ............................................................................................... 26
1.5.2. LTE Module Installation ......................................................................... 27
1.5.3. SIM Installation ...................................................................................... 28
1.5.4. LTE RF Connector ................................................................................... 29
1.5.5. UART Access (Option) ............................................................................ 30
1.5.6. Driver Installation .................................................................................. 31
2. Prerequisite Configuration .................................................................................... 32
2.1. Factory Reset ...................................................................................................... 32
2.2. RF conformance Setup ....................................................................................... 33
2.3. Protocol conformance Setup .............................................................................. 34
2.4. UICC Test Setup .................................................................................................. 35
2.5. LTE IMS VoIP ....................................................................................................... 36
3. AT Command Control ............................................................................................ 38
4. F/W Update .......................................................................................................... 40
4.1. F/W Update via WebUI ....................................................................................... 40
4.1.1. Debug Level ........................................................................................... 45
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4.1.1.1. IMS ......................................................................................................... 45
4.1.1.1.1. Configuration to Enable IMS Debug Level ...................................... 45
4.1.1.1.2. Get Log File from Device ................................................................ 46
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1. Introduction
This document gives an instruction on how to use IMG2 module and HDK.
1.1. LTE IMG2 Overview
Form Factor: LGA
Dimension: 32x36x4.3(mm)
DC Voltage: 3.3~4.3V
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Block Diagram
Note:
1. Only using ANT1~ANT4, all of other antenna ports should be
terminated by 50ohm load for module application, and which output
performancs are guaranteed accordingly.
2. This module not certified for embedded antenna or hanheld
devices
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Features:
Platform: GCT GDM7243Q
Support FDD Band 2/4/5/13
compliant with LTE specification (3GPP Release 10)
Support 1T2R Cat. 6 with downlink carrier aggression
Uplink: 50Mbps
Downlink: 300Mbps
Supports downlink inter and intra 2-Carrier Aggregation (Class
C), 2+2, 5+5, 4+4 2+4, 2+5, 2+13, 4+5, 4+13, 5+13,
Support all LTE Bandwidth per 3GPP standard
(1.4/3/5/10/15/20MHz)
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- Frequency Bands
LTE
UL (MHz)
DL (MHz)
TX Power
Band 2
1850~1910
1930~1990
23 +/-2.7dBm
Band 4
1710~1755
2110~2155
23 +/-2.7dBm
Band 5
824~849
869~894
23 +/-2.7dBm
Band 13
777~787
746~756
23 +/-2.7dBm
a) LGA PCB footprint
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b) LGA Pin Assignments
Pin #
ETSI
Pin assign in ETSI Spec
LGA
IMG2 LGA
IMG2 Description
Signal
Dir
Level
Signal
Dir
Level
1
GND
2
GND
3
RF_GNSS
NC
Antenna for a GNSS
receiver
4
GND
5
GND
6
GND
7
LB_RF1
8
GND
9
GND
10
GND
11
LB_RF2
12
GND
13
GND
14
GND
15
LB_RF3
16
GND
17
GND
18
GND
19
LB_RF4
20
GND
21
GND
22
GND
23
HB_RF1
24
GND
25
GND
26
GND
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27
HB_RF2
28
GND
29
GND
30
GND
31
HB_RF3
32
GND
33
GND
34
GND
35
HB_RF4
36
GND
37
VCC1
Power (Typ=3.8V,
Min=3.4V,
Max=4.2V)
38
VCC2
Power (Typ=3.8V,
Min=3.4V,
Max=4.2V)
39
VCC3
Power (Typ=3.8V,
Min=3.4V,
Max=4.2V)
40
VCC4
Power (Typ=3.8V,
Min=3.4V,
Max=4.2V)
41
VCC5
Power (Typ=3.8V,
Min=3.4V,
Max=4.2V)
42
VCC6
Power (Typ=3.8V,
Min=3.4V,
Max=4.2V)
43
RTC_POWER
NC
Typ=3.0V,
Min=2.0V,
Max=3.25V
44
GND
45
GND
46
PCM_SYNC/I2S_WS
PCM_SYNC
O
1.8V
47
PCM_DIN/I2S_DIN
PCM_IN
I
1.8V
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48
PCM_DOUT/I2S_DOUT
PCM_OUT
O
1.8V
49
PCM_CLK/I2S_CLK
PCM_MCLK
O
1.8V
50
GND
51
GND
52
GPIO01
VREF
UART0_TXD
O
1.8V
53
GPIO02
VREF
UART0_RXD
I
1.8V
54
GPIO03
VREF
W_DISABLE#1
I
3.3V
55
GPIO04
VREF
W_DISABLE#2
I
1.8V
56
GPP01
I2C_CLK
O
1.8V
57
GPP02
I2C_SDA
B
1.8V
58
GPP03
59
GPP04
RGMII_MDC
3.3V
RGMII Signals
60
GPP05
RGMII_MDIO
61
GPP06
RGMII_TCLK
62
GPP07
RGMII_TCTL
63
GPP08
RGMII_TXD0
64
RFU
RGMII_TXD1
65
RFU
RGMII_TXD2
66
RFU
RGMII_TXD3
67
RFU
RGMII_RXD0
68
RFU
RGMII_RXD1
69
RFU
RGMII_RXD2
70
RFU
RGMII_RXD3
71
RFU
RGMII_RCLK
72
RFU
RGMII_RCTL
73
RFU
PHY2MAC_125Mhz
74
GND
75
GND
76
UART1_DTR
VREF
UART2_RXD
VREF(1.8V)
77
UART1_RING
VREF
UART2_TXD
VREF(1.8V)
78
UART1_DCD
VREF
COEX3
VREF(1.8V)
79
UART1_DSR
VREF
VREF(1.8V)
80
UART1_CTS
VREF
UART3_CTS
VREF(1.8V)
81
UART1_RTS
VREF
UART3_RTS
VREF(1.8V)
82
UART1_RX
VREF
UART3_RXD
VREF(1.8V)
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83
UART1_TX
VREF
UART3_TXD
VREF(1.8V)
84
GND
85
GND
86
USB_DP
USB2.0_DP
B
87
VBUS/GPIO87
I
88
UAB_DM
USB2.0_DM
B
89
GND
90
GND
91
GND
92
USB3_SSTXn
USB3.0-SSTX-
B
93
PCIe_CLKREQ/MPHY_SB1
NC
94
USB3_SSTXp
USB3.0-SSTX+
B
95
PCI#_WAKE
NC
96
USB3_SSRXn
USB3.0-SSRX-
B
97
PCIe_RST
NC
98
USB3_SSRXp
USB3.0-SSRX+
B
99
USB_STROBE
NC
100
USB_DATA
NC
101
MPHY_TX2_DP
NC
102
PCIe_REFCLKn/MPHY_RX2_DN
NC
103
PCIe_REFCLKp/MPHY_RX2_DP
NC
104
GND
105
GND
106
UART2_RX
VREF
UART1_RXD
VREF(1.8V)
107
UART2_TX
VREF
UART1_TXD
VREF(1.8V)
108
GND
109
GND
110
RFU
SPI_CS2#
O
1.8V
111
RFU
SPI_SCLK
O
1.8V
112
RFU
SPI_MOSI
O
1.8V
113
RFU
SPI_MISO
I
1.8V
114
RFU
SLIC_RST#
O
1.8V
115
RFU
SLIC_INT#
I
1.8V
116
RFU
GPS_SYNC
O
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117
RFU
GPS_ENABLE
O
118
RFU
CLKOUT_GPS
O
119
RFU
ETH_EN
120
GPP09
SDH0_CLK
O
1.8V
121
GPP10
SCH0_CMD
O
1.8V
122
GPP11
SDH0_DAT0
B
1.8V
123
GPP12
SDH0_DAT1
B
1.8V
124
GPP13
SDH0_DAT2
B
1.8V
125
GPP14
SDH0_DAT3
B
1.8V
126
GPP15
SDH0_CD#
B
1.8V
127
GPP16
DPR
I
1.8V
128
GPP17
SDH0(WIFI)_RST#
129
GPIO05
VREF
ANTCTL0
O
1.8V
130
GPIO06
VREF
ANTCTL1
O
1.8V
131
GPIO07
VREF
ANTCTL2
O
1.8V
132
GPIO08
VREF
ANTCTL3
O
1.8V
133
UIM_VCC
O
1.8/3.0V
SIM_VCC
O
1.8/3.0V
134
UIM_DAT
B
1.8/3.0V
SIM_DAT
B
1.8/3.0V
135
UIM_CLK
O
1.8/3.0V
SIM_CLK
O
1.8/3.0V
136
UIM_RESET
O
1.8/3.0V
SIM_RST
O
1.8/3.0V
137
UIM_DETECT
I
1.8/3.0V
NC
I
1.8/3.0V
138
UIM_SPU
TBD
NC
TBD
139
GND
140
GND
141
WWAN_STATE
O
VREF
NC
O
1.8V/3.3V
142
POWER_ON
I
VREF
ENABLE_MODULE
I
VREF(1.8V)
143
WAKEUP_OUT/GPIO143
O
VREF
WAKEUP#_HOST
O
VREF(1.8V)
144
WAKEUP_IN/GPIO144
I
VREF
WAKEUP#_LTE
I
VREF(1.8V)
145
RESET
I
VREF
RESET#_1.8V
I
VREF(1.8V)
146
VREF
O
1.8V
O
DCDC_1.8V
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1.2. LTE IMG2 Design Reference
LTE Module IMG2 on EVK M.2 PCBA with RF Switch connectors (ANT1~ANT4).
EVK PCB Structure
類型
Type
鑽孔構造
Drill Structure
層別
Layer
假設的殘銅率(%)
Assumptive copper
area (%)
材料型號
Material Type
ER
(@2GHZ)
Thickness after
Process
(mil)
(mm)
GT P/N:
18012203-03
Top Solder Mask
3.8
1.00
0.025
Metal
L1
Base Cu + Plating
1.40
0.036
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Dielectric
Prepreg
2116*2
4
9.37
0.238
Metal
L2
75.0%
1OZ
1.15
0.029
Dielectric
Core
0.005"
4.2
5.00
0.127
Metal
L3
75.0%
1OZ
1.15
0.029
Dielectric
Prepreg
2116*2
4
9.37
0.238
Metal
L4
Base Cu + Plating
1.40
0.036
Bottom Solder Mask
3.8
1.00
0.025
Board thickness : 0.8mm+/-10%(Including Plating+S/M)
Total :
30.84
0.783
RF Trace Impedance Table
NO.
控制層
Layer
阻值要求
Impedance
Requirement
(ohms)
Tolerance
阻抗類型
Impedance
Type
參考層
Ref. Layer
線寬
Trace
Width
(mil)
線距
Trace
Spacing
(mil)
Line to
gnd
space
(mil)
计算值
Calculated
Values
(ohms)
1
L1
50
+/-10%
Coplanar Single
L2
15
-
10
49.8
2
L4
50
+/-10%
Coplanar Single
L3
15
-
10
49.8
Layout guidelines for RF trace outputs
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All PJ2/PJ7/PJ4/PJ5 connectors are RF switch connectors and the part description
as below.
“INTERNAL CONNECTOR,MICRO RF SWSMT,180DEG.,JACK,RF
SWITCH,(FOXCONN),KMC1001-F007-7F”.
The main purpose of these RF switches is to verify the conductive TRX RF
performances or for debugging.
Some key performances should be verified:
i) TX Power Level
ii) Spectrum Emmission Mask
iii) RX Sensitivity
iv) EVM
v) Frequency Error
vi) VSWR
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1.3. LTE IMG2 Antenna Design
The antenna should be 50ohm characteristic impedance with Return Loss less
than -10dB at all desired frequency bands.The following external antenna as an
example for OEM verifications because this special dipole antenna being
certified with IMG2 LTE module.
Manufactured by MAGLAYERS
Model Name: WDA-2010-4G0R2-A1
Outlines of external antenna
Return loss <= -10dB
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1.4. LTE IMG2 Test Procedure for Design Verification
Equipment List
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Item
Quantity
Specification
KS E6640A
1
Shielding box
1
PC
1
DC Power Supply
1
PPT-3615
USB Cable
2
Ethernet Cable
1
Test fixture
1
LTE Test Plan
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LTE Test Spec.
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1.5. HDK Overview
1.5.1. Overview
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1.5.2. LTE Module Installation
Three steps to accomplish module installation:
Step1. Insert module with about 15° angle to NGFF connector.
Step2. Press down the module.
Step3. Fasten with a screw.
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1.5.3. SIM Installation
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1.5.4. LTE RF Connector
LTE RF connection is RF cable type dependency. That said, only Murata cable can be used
while doing conductive test.
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1.5.5. UART Access (Option)
4 PIN UART provides LTE module UART access. Generally it is used for debugging and an
RS232-to-USB adaptor is required. Baud rate is 921600.
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1.5.6. Driver Installation
The communication between DUT and PC is Ethernet-over-USB. Please install driver (i.e.,
dpinst.exe) on a PC first.
TOOL-Windows RNDISACM Driver Installer
for Vista and later
GDM7243_windows_acm_drivers_installer_v1.1.0.0
32bit
dpinst.exe
64bit
dpinst.exe
for XP
GDM7243_windows_xp_acm_rndis_installer_v.1.3.0.0
dpinst.exe
Two interfaces are derived when connecting USB connector to PC.
USB RNDIS : network interface
Modem Com port : AT command interface which supports baud rate: 921600 at most
In device manager, you will see an RNDIS interface and a Modem COM port after DUT boots
up completely. PC will obtain an IP address of 192.168.0.X assigned by DUT via DHCP.
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2. Prerequisite Configuration
2.1. Factory Reset
This section provides a way to execute “Factory Reset”. SDM parameter values will be
persistent throughout “Factory Reset”. “Factory Reset” is applied to Motive testing, 7Layers
OTADM testing and Field testing. It is used during the testing while “Factory Reset ” is
needed.
Step 1
Power on DUT and then wait a while (i.e., around 20 sec).
Step 2
Make sure a Modem COM port is observed in device manager. (Please refer to section
1.1.6)
This Modem COM port (i.e., AT command interface) can simply connected through
generic UART console program such as “TeraTerm”, “putty”, etc,…
Step 3
(a.) Type shell
(b.) Type shell command: ucfg sync
Step 4
※Then a DUT reboot is required to apply the setting.
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2.2. RF conformance Setup
This section is applied to RF conformance test such as GCF
- TS 36.521-1:
Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment
(UE) conformance specification; Radio transmission and reception;
Part 1: Conformance testing
- TS 36.521-3:
Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment
(UE) conformance specification; Radio transmission and reception;
Part 3: Radio Resource Management (RRM) conformance testing
Prior to test please have “Factory Reset” for DUT as described in section 2.1.
Besides, RF conformance test just uses the internet PDN. And, UL data should be
blocked. The instruction is shown as following;
Step 1
Power on DUT and then wait a while (i.e., around 20 sec).
Step 2
Make sure a Modem COM port is observed in device manager. (Please refer to section
1.1.6)
This Modem COM port (i.e., AT command interface) can simply connected through
generic UART console program such as “TeraTerm”, “putty”, etc,…
Step 3
(a.) Type AT command: AT%SYSCMD="ucfg set config wan lte ims ims_test_mode 1"
(b.) Type AT command: AT%PKTDISCARD=1
Step 4
※Then a DUT reboot is required to apply the setting.
In order to avoid DUT incorrect operation caused by manually changing it for test
purpose. While DUT is reused for another test plan please change it back as
following,
(a.) Type AT command: AT%PKTDISCARD=0
(b.) Type AT command: AT%MIMOANTCHECK=0
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2.3. Protocol conformance Setup
This section is applied to Protocol conformance test such as GCF
- TS 36.523-1:
Evolved Universal Terrestrial Radio Access (E-UTRA) and Evolved
Packet Core (EPC); User Equipment (UE) conformance specification;
Part 1: Protocol conformance specification
Prior to test please have “Factory Reset” for DUT as described in section 2.1.
Besides, Protocol conformance test just uses the internet PDN. And, UL data
should be blocked. The instruction is shown as following;
Step 1
Power on DUT and then wait a while (i.e., around 20 sec).
Step 2
Make sure a Modem COM port is observed in device manager. (Please refer to section
1.1.6)
This Modem COM port (i.e., AT command interface) can simply connected through
generic UART console program such as “TeraTerm”, “putty”, etc,…
Step 3
(a.) Type AT command: AT%SYSCMD="ucfg set config wan lte ims ims_test_mode 1"
(b.) Type AT command: AT%PKTDISCARD=1
Step 4
※Then a DUT reboot is required to apply the setting.
In order to avoid DUT incorrect operation caused by manually changing it for test
purpose. While DUT is reused for another test plan please change it back as
following,
(c.) Type AT command: AT%PKTDISCARD=0
(d.) Type AT command: AT%MIMOANTCHECK=0
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2.4. UICC Test Setup
This section is applied to UICC test such as GCF
- TS 31.121:
UICC-terminal interface; Universal Subscriber Identity Module
(USIM) application test specification
- TS 31.124:
Mobile Equipment (ME) conformance test specification; Universal
Subscriber Identity Module Application Toolkit (USAT)
conformance test specification
- TS 102.230:
Smart Cards; UICC-Terminal interface; Physical, electrical and
logical test specification
Please refer to G7243_USAT_Test_Guide_v2.5.pdf
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2.5. LTE IMS VoIP
This section provides commands for configuration change requirement.
Commands are marked in red. Please input command in # prompt.
Please not that if you apply “Factory Reset” in section 2.1, it will set all VoIP parameters to
device’s default values.
1). IMS RTP RTCP Inactivity Timer
Command
ucfg set config wan lte ims volte rtp_rtcp_inactivity_timer_ims <value>
Description
This parameter indicates the maximum length of time a call can remain active without
any media (RTP or RTCP) traffic within a group. Each time an RTP or RTCP packet occurs
within a call, this timeout resets. The value is an integer measured in Seconds.
Example
Note: set rtcp_inactivity_timer to 300s
ucfg set config wan lte ims volte rtp_rtcp_inactivity_timer_ims 300
Get current setting from device
ucfg get config wan lte ims volte rtp_rtcp_inactivity_timer_ims
2). IMS Session Timer
Command
ucfg set config wan lte ims volte session_timer_ims <value>
Description
The Session-Expires header value can be configured through the SESSION-EXP tag.
Session-Expires conveys the duration of the session.
SIP entities MUST be prepared to handle Session-Expires header field values of any
duration greater than 90 Seconds. Small session intervals can be destructive to the
network. They cause excessive messaging traffic that affects both user agents and proxy
servers.
More information about Session Expires and Min-Session Expire can be found in RFC
4028.
The value is an integer measured in Seconds.
Example
Note: set session_timer_ims to 90 seconds
ucfg set config wan lte ims volte session_timer_ims 90
Get current setting from device
ucfg get config wan lte ims volte session_timer_ims
3). IMS Min Se Timer
Command
ucfg set config wan lte ims volte min_se_ims <value>
Description
The minimum value for session-expires value
The Min-SE header field indicates the minimum value for the session interval, in units of
seconds. The value of this element is inserted in MIN-SE header in INVITE request. The
value must be greater than 90 seconds.
More information about Session Expires and Min-Session Expire can be found in RFC
4028.
The value is an integer measured in Seconds.
Example
Note: set min_se_ims to 90 seconds
ucfg set config wan lte ims volte min_se_ims 90
Get current setting from device
ucfg get config wan lte ims volte min_se_ims
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4). Enable/Disable SCR_AMRWB
Command
ucfg set config wan lte ims volte scr_amrwb <value>
Example
Note: enable SCR_AMRWB
ucfg set config wan lte ims volte scr_amrwb 1
Note: disable SCR_AMRWB
ucfg set config wan lte ims volte scr_amrwb 0
Get current setting from device
ucfg get config wan lte ims volte scr_amrwb
5). Enable/Disable AMR_WB
Command
ucfg set config wan lte ims volte scr_amrwb <value>
Example
Note: enable AMR_WB
ucfg set config wan lte ims volte amrwb 1
Note: disable AMR_WB
ucfg set config wan lte ims volte amrwb 0
Get current setting from device
ucfg get config wan lte ims volte amrwb
6). Set AMR_WB Mode
Command
ucfg set config wan lte ims volte amrwbmodset <value>
Example
Note: set amrwbmodeset parameter 8
ucfg set config wan lte ims volte amrwbmodset 8
Note: set amrwbmodeset parameter to "0,1,2"
ucfg set config wan lte ims volte amrwbmodset 0,1,2
Note: set amrwbmodeset parameter to "0,2,5,7"
ucfg set config wan lte ims volte amrwbmodset 0,2,5,7
Get current setting from device
ucfg get config wan lte ims volte amrwbmodset
7). Set TTY Mode
Command
ucfg set config wan lte ims volte tty_mode <value>
Example
Note: set TTY mode to TTY FULL
ucfg set config wan lte ims volte tty_mode 3
Note: set TTY mode to TTY HCO
ucfg set config wan lte ims volte tty_mode 1
Note: set TTY mode to TTY VCO
ucfg set config wan lte ims volte tty_mode 2
Note: set TTY mode to TTY OFF
ucfg set config wan lte ims volte tty_mode 0
Get current setting from device
ucfg get config wan lte ims volte tty_mode
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3. AT Command Control
Tester can enter 3GPP AT Command through “GCT GDM7243 LTE USB Monitor Port”
interface (i.e., section 1.1.6) and it can simply connected through generic UART console
program such as “TeraTerm”, “putty”, etc,…
Some proprietary AT commands and VzW AT commands support for testing purpose as
followings;
Antenna Selection
This command will persist through power cycle
(A.) Set command
Usage
AT%MIMOANTCHECK=0
AT%MIMOANTCHECK=1
AT%MIMOANTCHECK=2
AT%MIMOANTCHECK?
Description
Enable Main & Div.
Enable Div. only
Enable Main only
Query current enabled
antenna port
+MIMOANTCHECK : 0
(B.) Read command returns the current setting of <+MIMOANTCHECK :>
Usage
AT%MIMOANTCHECK?
Response
+MIMOANTCHECK : 0 both Main & Div are enabled
+MIMOANTCHECK : 1 only Div is enabled
+MIMOANTCHECK : 2 only Main is enabled
Read RSRP
Usage
AT+VZWRSRP?
Response
+VZWRSRP:
<cellID>1,<EARFCN>1,<RSRP>1,<cellID>2,<EARFCN>2,<RSRP>2,…,<cellID>n, <EARFCN>n,<RSRP>n
+CME ERROR: <err>
Read RSRQ
Usage
AT+VZWRSRQ?
Response
+VZWRSRQ:
<cellID>1,<EARFCN>1,<RSRQ>1,<cellID>2,<EARFCN>2,<RSRQ>2,…,<cellID>n,<EARFCN>n,<RSRQ>n
+CME ERROR: <err>
Edit APN Table
This command will persist through power cycle
(A.) Set command
Usage
AT+VZWAPNE=<wapn>,<apncl>,<apnni>,<apntype>,<apnb>,<apned>
Description
<wapn> index
digit
<apncl>: class
digit
<apnni>: name
string
<apntype>: type
string
<apnb>: bearer
string
<apned>
string
1, 2 or 3
1, 2 or 3
IPv4
IPv6
IPv4v6
LTE
Enabled
Disabled
Note
(i) <wapn> and <apncl> should be the same
(ii) Since it is LTE only device, <apnb> should be given as LTE
Example
Edit 3rd APN. Give APN name as empty; APN type as IPV4; APN bearer as LTE and 3rd APN is enabled
AT+VZWAPNE=3,3,,IPv4,LTE,Enabled
(B.) Read command returns the current setting of <+VZWAPNE :>
Usage
AT+VZWAPNE?
Response
1,IMS,IPv4v6,LTE,Enabled,0,
2,VZWADMIN,IPv4v6,LTE,Enabled,0,
3,VZWINTERNET,IPv4v6,LTE,Enabled,0,
4,VZWAPP,IPv4v6,LTE,Enabled,0,
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Enable/Disable packet discard
This command will persist through power cycle
(A.) Set command
Usage
AT%PKTDISCARD=1
AT%PKTDISCARD=0
Description
Discard the UL packet
Back to normal operation
(B.) Read command returns the current setting of <+MIMOANTCHECK :>
Usage
AT%PKTDISCARD?
Response
+PKTDISCARD : OFF back to normal operation
+PKTDISCARD : ON discard the UL packet
Enable/Disable packet discard
This command will NOT persist through power cycle
Usage
AT%GSWTESTW=3,1
AT%GSWTESTW=3,0
Description
Discard the UL packet
Back to normal operation
Clear RPLMN list
Usage
AT%VZWMRUC
Clear FPLMN list
Usage
AT+CRSM=214,28539,0,0,0,"FFFFFFFFFFFFFFFFFFFFFFFF"
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4. F/W Update
4.1. F/W Update via WebUI
Step 1
Power on DUT and then wait a while (i.e., around 20 sec)
Step 2
Make sure it can ping to DUT (i.e., 192.168.0.1) from PC (e.g., 192.168.0.X)
Step 3
(a.) Navigate WebUI (i.e., http://192.168.0.1)
(b.) Select Filename1=Bootloader, Filename2=Kernel, Filename3=Filesystem,
Filename4=Modem Image to be downloaded. (It should be selected at least one
file among four to go on updating process). Generally we will provide Kernel and
Filesystem image.
(c.) Click “Update” button to go on updating process
(d.) Click “OK” button to be continue while a prompt box displays
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Step 4
Make sure a Modem COM port is observed in device manager. (Please refer to section
1.1.6)
This Modem COM port (i.e., AT command interface) can simply connected through
generic UART console program such as “TeraTerm”, “putty”, etc,…
Step 5
(e.) Type AT command: AT%SYSCMD="ucfg clean config"
(f.) Type AT command: AT%SYSCMD="ucfg clean factory"
Step 6
※Then a DUT reboot is required to apply the setting.
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Step 4
(a.) File => New connection…
(b.) Click “TCP/IP” radio button; select “Telnet” radio button; give an IP address of
192.168.0.1 and then press “OK” button.
(c.) Click “TCP/IP” radio button; select “Telnet” radio button; give an IP address of
192.168.0.1 and then press “OK” button.
(a.) DUT Username: root; Password: gct
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Step 5
Type commands sequentially below:
1. ucfg get config wan lte
2. lted_cli
3. arm1log 2
4. AT%PKTDISCARD?
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Step 6
Run test case
Step 7
Press “Close” button after test case stop.
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4.2. Debug Level
An introduction to enable default debug level is described in Section 5.2. Furthermore, this
subsection illustrates on how to enable a specific debug level.
4.2.1. IMS
4.2.1.1. Configuration to Enable IMS Debug Level
After applying configuration, it will store in device’s NV. However, it is different from default
debug level. That said, it will be invalid after you restore device to factory default. Step 5
gives a way to quickly check and confirm whether the device is already enabled this specific
debug level or not.
Note: commands are mark in red
Step 1
Power on DUT and then wait a while (i.e., around 20 sec).
Step 2
Please have UART access. (Hint: section 1.1.5)
COM port can simply connect through generic UART console program such as
“TeraTerm”.
Step 3
(a.) Type command in DM> prompt: shell
(b.) Type command in # prompt: ucfg set config wan lte ims debug_level 50
Step 4
※Then a DUT reboot is required to apply above setting.
Step 5
Please check and confirm if previous setting is applied.
(a.) Type command in DM> prompt: shell
(b.) Type command in # prompt: ucfg get config wan lte ims debug_level
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4.2.2. Get Log File from Device
Please have DUT set up properly based on section 1.1.6.
Step 1
Execute tfpd server running on PC side.
Step 2
(a.) Type command in DM> prompt: shell
(b.) Type command in # prompt to get /var/log/EcrioSACALC.log from device to
PC.