Hitachi Kokusai Electric UM04KO Wireless Communication Module User Manual

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Date Submitted	2015-09-21 00:00:00
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Version 1.0
LTE Ubiquitous Module®（UM04-KO）
Instruction Manual
Version 1.0
August 2015
Version 1.0
― Contents ―
Introduction ...................................................................................................................................................................................................... 3
■Dimensional outline drawing............................................................................................................................................................ 4
■Interface for the external device...................................................................................................................................................... 5
■Available services with this device .................................................................................................................................................. 6
Device specification...................................................................................................................................................................................... 7
Main specification.......................................................................................................................................................................................... 7
Interface ........................................................................................................................................................................................................ 9
1．Main connector ............................................................................................................................................................................... 9
２．Power supply ................................................................................................................................................................................. 19
３．UART interface ............................................................................................................................................................................ 28
４．USB interface ................................................................................................................................................................................ 33
５．Monitor interface......................................................................................................................................................................... 35
６．UIM card interface ..................................................................................................................................................................... 38
７．RF connector (Main/Sub) ......................................................................................................................................................... 40
８．External antenna ......................................................................................................................................................................... 41
Precautions for connecting to the external device .......................................................................................................................... 42
Precaution for design of the external device .................................................................................................................................. 42
Recommended installation method ..................................................................................................................................................... 43
■In case of using the flexible connector ................................................................................................................................... 43
■In case of using the BtoB connector ........................................................................................................................................ 43
■Antenna connection ...................................................................................................................................................................... 44
Operation mode............................................................................................................................................................................................ 45
Communication mode.............................................................................................................................................................................. 45
Service function ........................................................................................................................................................................................... 47
Packet communication ........................................................................................................................................................................... 47
SMS .............................................................................................................................................................................................................. 49
Area Mail ..................................................................................................................................................................................................... 49
Software update ....................................................................................................................................................................................... 50
RF part ON/ OFF function.................................................................................................................................................................... 50
AT command ................................................................................................................................................................................................. 51
AT command list....................................................................................................................................................................................... 51
Version 1.0
Introduction
Introduction
Please note that “UM04-KO” is referred to as “this device” in this instruction manual.
This device is the communication module which unified in combination with the radio part of the cellular telephone
and the modem part.
This device has the functions of packet communication and SMS.
As this device is built-in to the external device product, the LTE communication service (only in Japan) and
W-CDMA/GSM communication service (out of Japan) can be used.
This device is an environment-conscious product which is compliant with the RoHS Directive.
Version 1.0
■Dimensional outline drawing
Main connector (BtoB)
Mounting hole
Shield case
(Insulation label)
RF connector (MAIN)
Mounting hole
コネクタ
RF connector (SUB)
Main connector (flexible)
Unit: mm
●Name plate seal outline drawing
Version 1.0
■Interface for the external device
●Interface between this device and the external device (A-side : Flexible connector)
External device
Main connector
(flexible connector)
UIM card
RF connector (Sub)
This device
(A-side)
・Power supply
・Power supply Control
・UARTserial interface
・Monitor interface
・UIM card interface
RF connector (Main)
●Interface between this device and the external device (B-side : BtoB connector)
External device
Main connector
(BtoB connector)
UIM card
This device
(B-side)
・Power supply
・Power supply Control
・UARTserial interface
・USB interafce
・Monitor interface
・UIM card interface
This device has two main connectors. One is flexible connector on A-side and another is BtoB connector on
B-side. They each contain the interface of power supply, UART , USB (only in case of BtoB connector), UIM
card. RF connectors on A-side are used to connect the external antennas.
Version 1.0
■Available services with this device
This device can use various communication services of DOCOMO. Packet communication, SMS and other
associated various services are available.
In addition, for the use of the service, production of the external device which incorporated this device is necessary.
●Packet communication
Packet communication (packet switching) is communication method that transmits and receives divided data
which is partitioned into the unit of called packet (package).
Because the packet communication can use one line in common by plural external devices or applications, it can
communicate efficiently.
The data communication speed is 112.5Mbps for downlink and 37.5Mbps for uplink (best effort type) in LTE
network, and 42.2Mbps for downlink and 5.7Mbps for uplink (best effort type) in W-CDMA network.
●SMS
SMS (short message service) is the service that can transmit and receive the letter message of the short sentence
easily with the address which is same to phone number regardless of the mobile phone career through SMS center
of DOCOMO.
●Area Mail
Early warning “Area Mail” service is the service in Japan that earthquake early warning and tsunami warning
from Japan Meteorological Agency and the disaster and the refuge information from the country and the regional
public institution are delivered to cellphones and communication models which exist in the particular area all at
once through the DOCOMO network.
Please refer to the website of DOCOMO for the regional public institution which started service of the disaster
and the refuge information using Area Mail.
This device can not receive Area Mail at the place of weak radio wave.
During packet and other communication, it may receive Area Mail depending on communication situation. In
addition, it can not receive the Area Mail again that it missed to receive.
The reception of Area Mail is free of charge.
●Software update
This is the function to update the software of this device in LTE network after sale.
Version 1.0
Device specification
Device specification
Main specification
Description
Item
Supported service
Communication protocol
Control method
UART serial
Number of ports
interface
Signals
Communication
speed (bps)
Communication
format
Sending/Receivin
g control
Baud rate
deviation
USB interface
RF interface
Communication
standard
Number of ports
Function
Communication
speed
Signals
Radio frequency
Access method
Data
communication
speed
Monitor
interface
UIM card
interface
External
interface
BtoB connector
LTE mode
Roaming mode
(W-CDMA/GSM method)
(LTE method)
Packet communication, SMS
PPP, IP
AT command
One line
SD､RD､XER､XDR､XRS､XCS､XCD､XCI
1200/2400/4800/9600/19200/38400/
57600/115200/230400/460800
Start：1bit, Stop：1bit, Data：8bit, Parity：none
Support hardware flow control, software flow control,
and without flow control
Sending:2% or less
Receiving:2% or less
Conformity USB2.0
One line
Device function
HS：480Mbps, FS：12Mbps
USB_DPLUS、USB_DMINUS、USB_VBUS、
USB_D_RDY_n、USB_H_RDY_n
【W-CDMA method】
2GHz/800MHz Band
2GHz/800MHz Band
【GSM method】
GSM850MHz/ GSM900MHz/
GSM1800MHz/
GSM1900MHz
【W-CDMA method】
OFDMA, SC-FDMA
DS-CDMA, T-HCDMA
【GSM method】
TDMA
【W-CDMA method】
Uplink :37.5Mbps Max
Downlink :112.5Mbps
Uplink : 5.7Mbps Max
Max
Downlink: 42.2Mbps Max
【GSM method】
Uplink : 237kbps Max
Downlink: 237kbps Max
ANT1_n, ANT2_n, TRX_n, LEDG_n, LEDGMS_n, ADL_n、
3G / LTE (GSM), SMS_n, CBS_ETWS_n
PACKET, ANT1, ANT2, ANT3, LEDG, LEDR, LEDGMS
Remarks
－
－
－
－
－
－
－
－
－
Supported in case of BtoB
connector
－
－
Best effort type
－
Flexible connector
Conformity to 3GPP TS31series
－
Main connector
－
－
－
Antenna connector
80pin BtoB connector
57 pin flexible connector
U.FL×2 (Main, Sub)
Version 1.0
Item
Operation environment
Storage environment
Power supply voltage
Power supply ripple
Current consumption
Description
LTE mode
Roaming mode
(W-CDMA/GSM method)
(LTE method)
Temperature:-30℃ to +60℃
Humidity:25% to 85% (Without condensation)
Temperature:-40℃ to +85℃、
Humidity:25% to 85% (Without condensation)
DC+3.3V to 4.2V
50mVp-p (0Hz to 2.5GHz) or less
During communication:TBD mA or less
Stand-by state:TBD mA or less
Inrush current drain：TBD A or less (Within 100μsec)
Dimensions
Weight
Electrostatic withstand voltage
Vibration condition
Environmental compliance
Technical standard conformity proof
(the construction design
certification by the registration
proof institution)
Technical standard conformity
certification of the terminal
equipment
Peak current drain：TBD A or less
Approx. 36.5(W)×Approx. 35.7(D)×Approx. 5.0(H) mm
Approx. 11g
±1kV (all pins)
After a vibration of 19.6m/s2 (2G) acceleration and the frequency
of 30 to 100 Hz is applied to this device with the one cycle
sweeping time of 20 minutes for up/down, left/right, and
back/forth directions, the function and performance of this device
is normal with no damage or dropped parts observed.
RoHS compliant
Construction design certification number：TBD
Remarks
－
Without electrical and
mechanical stress
Recommendation DC+3.7V
－
Measurement condition： 500
ms average.
With output of maximum TX
power
Stationary state in in-service
area
Without neighbor cell search.
ER-OFF
USB：inactive
DRX cycle:2.56 sec
Environment temperature:
25℃±2℃
Power supply voltage:3.7V
Power supply voltage
condition：
With the supply of the voltage
of 3.7V
(Which is voltage to reach to
the stable state in more than
300μs after start of power
supply）.
Note) When supply the
voltage except the above
condition, inrush current drain
may exceed the value stated.
－
Without convex part
－
－
－
－
－
Certification number： TBD
－
Version 1.0
Interface
Interface
1．Main connector
This device has two main connectors. One is flexible connector on the A-side and another is BtoB connector on
the B-side. They each contain the interface of power supply, UART , USB (only in case of BtoB connector), UIM
card. RF connectors on A-side are used to connect the external antennas.
■Flexible connector
This flexible connector is same as one used in UM01/02 series.
Connector specification
Number of pins
Pin pitch
Connection type
Model number
Manufacturer
57
0.3 ㎜
Connector for FPC
57FXL-RSM1-S-H-G-TB(LF)(SN)
JST CO., LTD
57
Version 1.0
●Assignment of connector pins
Type
Power supply
Power supply
control
UARTserial
interface
Monitor interface
UIM card
interface
Maintenance
interface
Pin
No.
Pin Name
Connector Pin
Signal Direction
(UM04-KO ⇔
external device)
20
22
23
28
33
37
51
53
55
57
48
50
30
43
41
39
SG
SG
SG
SG
SG
SG
SG
SG
SG
SG
SG
VCC
VCC
VCC
VCC
VCC
PWRKEY
SYSRST
XCD
XCI
－
－
－
－
－
－
－
－
－
－
－
←
←
←
←
←
←
←
→
→
35
XCS
→
32
XRS
←
31
XER
←
29
XDR
→
27
25
19
17
21
13
RD
SD
DTE1
DTE2
DTE3
PACKET
→
←
←
←
←
→
11
40
ANT3
ANT2
ANT1
LEDG
→
→
→
→
36
LEDR
→
34
LEDGMS
→
18
15
14
12
10
16
26
38
42
SIM_VCC(C1)
SIM_RST(C2)
SIM_CLK(C3)
SIM_GND(C5)
SIM_DIO(C7)
N.C.
N.C.
N.C.
N.C.
N.C.
→
→
→
－
⇔
－
－
－
－
－
10
Signal Function
Grounding
Setting of
unused pins
Unconnection
prohibited
Power Supply
(3.3 to 4.2V)
Power ON/OFF request
System reset
Carrier detection signal
Incoming call indication
signal
Permission signal of
sending from this device
Request signal of
sending from external
device
Ready signal from
external device
Ready signal from this
device
Received data
Sending data
External device serial
communication data
speed configuration
In packet service
area/Out of packet
service area
Antenna indication 3
Antenna indication 2
Antenna indication 1
For communication
status display
For communication
status display
For communication
status display
Power to the UIM card
Reset signal
Clock signal
Ground
Data input/output
Manufacturer
maintenance
Open
Open
Open
Open
Open
Open
Open
Open
Open
Open
Open
Open
Open
Open
Open
Open
Open
Open
Open
Open
Unconnection
prohibited
Connection
prohibited
Version 1.0
Type
N.C.
Pin
No.
Pin Name
Connector Pin
Signal Direction
(UM04-KO ⇔
external device)
Signal Function
44
45
46
47
49
52
54
56
N.C.
N.C.
N.C.
N.C.
N.C.
N.C.
N.C.
N.C.
－
－
－
－
－
－
－
－
N.C.
－
Not used
N.C.
－
Not used
24
N.C.
－
Not used
11
Setting of
unused pins
Connection
prohibited
Connection
prohibited
Connection
prohibited
Version 1.0
●Electrical characteristics
Min
Typ
Max
Unit
Power supply input
Item
VCC
2,4,6,48,50
Pin No.
3.3
3.7
4.2
－
Power supply control
PWRKEY
VT+
30
0.77
－
1.44
Schmitt trigger
VIH
30
1.44
－
5.25
－
－
－
10
μA
－
0.33
－
0.77
Schmitt trigger
－
0.33
－
μA
－
ILEAK
VT-
30
VIL
30
－
－
-10
Hysteresis
30
0.34
－
0.8
－
VT+
43
0.7
1.1
1.5
Schmitt trigger
VIH
43
1.5
－
5.25
－
μA
－
Schmitt trigger
ILEAK
Power supply control
SYSRST
ILEAK
VT-
43
VIL
43
ILEAK
UARTserial interface
XCD, XCI, XCS, XRS,
XER, XDR, SD, RD
0.61
0.9
－
0.25
－
－
－
-10
μA
－
0.15
0.49
－
VT+
25,31,32
0.7
1.1
1.5
Schmitt trigger
VIH
25,31,32
1.5
－
5.25
－
－
－
30
μA
－
VT-
25,31,32
0.25
0.61
0.9
Schmitt trigger
VIL
25,31,32
－
0.25
－
mA
－
Hysteresis
25,31,32
VOH
27,29,35,39,41
IOH
VOL
27,29,35,39,41
VT+
17,19,21
VIH
17,19,21
IOL
ILEAK
－
－
-2
0.15
0.49
－
－
5.25
－
－
－
mA
－
0.33
－
Equivalent to open
circuit imp.
There is no
definition because
of open drain
output
－
－
－
mA
0.7
1.1
1.5
－
Schmitt trigger
1.5
－
5.25
－
－
－
10
μA
－
VT-
17,19,21
0.25
0.61
0.9
Schmitt trigger
VIL
17,19,21
－
0.25
－
Hysteresis
17,19,21
VOH
7,9,11,13,34,36,40
－
－
-10
μA
－
0.15
0.49
－
－
5.25
IOH
－
－
－
mA
－
0.28
－
Equivalent to
open circuit imp.
There is no
definition because
of open drain
output
－
IOL
－
－
mA
ILEAK
VOL
Output
UIM card interface
SIM_VCC(C1)
SIM_RST(C2)
SIM_CLK(C3)
SIM_DIO(7)
－
0.25
43
ILEAK
Monitor interface
ANT1, ANT2, ANT3,
LEDR, LEDG,
LEDGMS, PACKET
－
10
Hysteresis
ILEAK
Serial communication data
speed configuration
DTE1, DTE2, DTE3
Remarks
7,9,11,13,34,36,40
18
voltage
－
2.7
－
3.3
Class B
1.62
－
1.98
Class C
VIH
10
C1×0.7
－
C1+0.3
Class B/C
VIL
10
-0.3
－
C1×0.2
Class B/C
VOH
15
C1×0.8
－
C1
Class B/C
－
-1
－
mA
Class B/C
－
C1×0.2
Class B/C
IOH
VOL
15
12
Version 1.0
Item
Pin No.
IOL
VOH
10
VOL
10
IOH
IOL
VOH
14
IOH
VOL
14
IOL
13
Min
Typ
Max
Unit
Remarks
－
－
mA
Class B/C
C1×0.7
－
C1
Class B/C
－
-1
－
mA
Class B/C
－
0.4
Class B
－
0.3
Class C
－
－
mA
Class B/C
C1×0.7
－
C1
Class B/C
－
-1
－
mA
Class B/C
－
C1×0.2
Class B/C
－
－
mA
Class B/C
Version 1.0
■BtoB Connector
This flexible connector is same as one used in UM03-KO.
Connector specification
Number of pins
Pin pitch
Connection type
Model number
Manufacturer
80
0.5 ㎜
Board to Board Connector
DF12(3.0)-80DS-0.5V(86)
Hirose Electric CO., LTD.
◆Please use the connector shown in the following table for the external device which connected to this device.
Connector specification
80
Number of pins
0.5mm
Pin pitch
Connection type
Board to Board Connector
DF12B(3.0)-80DP-0.5V(86)
Model number
Manufacturer
Hirose Electric CO., LTD.
●Assignment of connector pins
Type
Power supply
Power supply
control
UARTserial
interface
Pin
No.
Pin Name
Connector Pin
Signal Direction
(UM04-KO⇔external
device)
－
－
－
－
－
－
－
－
－
－
←
←
←
←
←
←
Signal Function
14
18
21
31
34
37
38
39
40
51
41
42
43
44
45
46
SG
SG
SG
SG
SG
SG
SG
SG
SG
SG
VCC
VCC
VCC
VCC
VCC
VCC
49
BtoB_DET(SG)
－
BtoB connection
detection signal
76
80
PWRKEY_ON_n
PWRKEY_OFF_n
SYSRST_n
XCD
XCI
←
←
←
→
→
78
XCS
→
Power ON request
Power OFF request
System reset
Carrier detection signal
Incoming call indication
signal
Permission signal of
sending from this device
14
Setting of
Unused pins
Grounding
Unconnection
prohibited
Power supply
(3.3 to 4.2V)
Unconnection
prohibited
Unconnection
prohibited
[Note1]
Open
Open
Open
Open
Open
Open
Version 1.0
Type
モニタ
インタフェース
UIM card
interface
USB interface
Maintenance
interface
N.C.
XRS
Connector Pin
Signal Direction
(UM04-KO⇔external
device)
←
XER
←
79
XDR
→
77
10
11
12
71
72
70
RD
SD
DTE1
DTE2
DTE3
ANT1_n
ANT2_n
TRX_n
→
←
←
←
←
→
→
→
48
LEDG_n
→
47
LEDGMS_n
→
30
ADL_n
→
68
SMS_n
→
67
CBS_ETWS_n
→
74
3G/LTE (GSM)
→
54
52
55
56
53
20
19
23
22
SIM_VCC(C1)
SIM_RST(C2)
SIM_CLK(C3)
SIM_GND(C5)
SIM_DIO(C7)
USB_DPLUS
USB_DMINUS
USB_VBUS
USB_H_RDY_n
→
→
→
－
⇔
⇔
⇔
←
←
66
USB_D_RDY_n
→
17
25
58
59
60
61
62
63
64
65
73
N.C.
N.C.
N.C.
N.C.
N.C.
N.C.
N.C.
N.C.
N.C.
N.C.
N.C.
N.C.
N.C.
N.C.
－
－
－
－
－
－
－
－
－
－
－
－
－
－
Pin
No.
Pin Name
15
Signal Function
Setting of
Unused pins
Request signal of
sending from external
device
Ready signal from
external device
Ready signal from this
device
Received data
Sending data
External device serial
communication data
speed configuration
Antenna indication 1
Antenna indication 2
Packet communication
status indication
Operation status
indication
Communication status
indication
Software update status
indication
Notification of SMS
receiving
Notification of Area
Mail receiving
Attached network
indication
Power supply
Reset Signal
Clock signal
Grounding
Data input/output
Data signal +
Data signal USB detection signal
Request of activation
from external device
Request of activation
from this device
Manufacturer
maintenance
Open [Note2]
Not used
Connection
prohibited
Open [Note2]
Open
Open
Open [Note2]
Depends on
configured value
Open
Open
Open
Open
Open
Open
Open
Open
Open
Unconnection
prohibited
Open
Open
Open
Pull-down
[Note3]
Open
Connection
prohibited
Version 1.0
Connector Pin
Signal Direction
Pin
Setting of
Type
Pin Name
(UM04-KO⇔external
Signal Function
No.
Unused pins
device)
13
N.C.
－
15
N.C.
－
N.C.
16
－
N.C.
24
－
N.C.
26
－
N.C.
27
－
N.C.
28
－
N.C.
29
－
N.C.
32
－
N.C.
33
－
N.C.
35
－
N.C.
36
－
N.C.
50
－
N.C.
57
－
N.C.
69
－
N.C.
75
－
[Note1] This signal is for the detection of BtoB connector connection. Please connect to SG without fail.
[Note2] The connection of the pull-up resistor is no problem. In case of connecting the pull-up resistor, please use the
power supply for pulling up within +1.8V to +5.25V.
[Note3] Recommended resistor value of the pulling down is 10kΩ to 100kΩ. Direct connection with SG is no problem.
16
Version 1.0
●Electrical characteristics
Current I regards its direction to flow into this device as plus.
Item
Power supply input
Power supply control
PWRKEY_ON_n
Min
Typ
Max
Unit
VCC
41,42,43,44,45,46
Pin No.
3.3
3.7
4.2
－
VT+
0.77
－
1.44
Schmitt trigger
VIH
1.44
－
5.25
－
－
－
10
μA
－
0.33
－
0.77
Schmitt trigger
－
0.33
－
μA
－
ILEAK
VT-
VIL
－
－
-10
Hysteresis
0.34
－
0.8
－
VT+
4,6
0.7
1.1
1.5
Schmitt trigger
VIH
4,6
1.5
－
5.25
－
μA
－
Schmitt trigger
ILEAK
Power supply control
PWRKEY_OFF_n
SYSRST_n
ILEAK
VT-
4,6
VIL
4,6
ILEAK
UARTserial interface
XCD, XCI, XCS, XRS,
XER, XDR, SD, RD
0.61
0.9
－
0.25
－
－
－
-10
μA
－
0.15
0.49
－
VT+
1,2,3
0.7
1.1
1.5
Schmitt trigger
VIH
1,2,3
1.5
－
5.25
－
－
－
30
μA
－
0.25
0.61
0.9
Schmitt trigger
－
0.25
－
mA
－
VT-
1,2,3
VIL
1,2,3
Hysteresis
1,2,3
VOH
76,77,78,79,80
VOL
－
－
-2
0.15
0.49
－
－
5.25
IOH
－
－
－
mA
－
0.33
－
IOL
－
－
mA
－
76,77,78,79,80
－
Equivalent to open
circuit imp.
There is no definition
because of open drain
output
VT+
10,11,12
0.7
1.1
1.5
Schmitt trigger
VIH
10,11,12
1.5
－
5.25
－
VT-
10,11,12
VIL
10,11,12
ILEAK
ILEAK
－
－
10
μA
－
0.25
0.61
0.9
Schmitt trigger
－
0.25
－
－
－
-10
μA
－
Hysteresis
10,11,12
0.15
0.49
－
VT+
22
0.7
1.1
1.5
Schmitt trigger
VIH
22
1.5
－
5.25
－
－
－
10
μA
－
ILEAK
VT-
22
0.25
0.61
0.9
Schmitt trigger
VIL
22
－
0.25
－
－
－
-10
μA
－
Hysteresis
22
0.15
0.49
VOH
66
－
－
5.25
－
Equivalent to open
circuit imp.
－
－
－
mA
－
0.33
ILEAK
USB_D_RDY_n
－
0.25
4,6
ILEAK
USB interface
USB_H_RDY_n
－
10
Hysteresis
ILEAK
Serial communication
data speed configuration
DTE1, DTE2, DTE3
Remarks
IOH
VOL
66
17
There is no definition
because of open drain
output
－
Version 1.0
Item
Pin No.
Min
Typ
Max
Unit
－
－
mA
－
－
5.25
IOH
－
－
－
mA
－
0.28
－
IOL
－
－
mA
－
IOL
Monitor interface
ANT1_n, ANT2_n,
TRX_n, LEDG_n,
LEDGMS_n,
SMS_n,ADL_n,
CBS_ETWS_n,
3G/LTE(GSM)
VOH
30,47,48,67,68,69,
70,71,72,74
VOL
30,47,48,67,68,
70,71,72,74
UIM card interface
SIM_VCC(C1)
SIM_RST(C2)
SIM_CLK(C3)
SIM_DIO(7)
Output
54
voltage
VIH
53
VIL
VOH
52
IOH
VOL
52
IOL
VOH
53
IOH
VOL
53
IOL
VOH
55
IOH
VOL
55
IOL
18
Remarks
－
Equivalent to open
circuit imp.
There is no definition
because of open drain
output
2.7
－
3.3
Class B
1.62
C1×
0.7
－
Class C
Class B/C
-0.3
－
1.98
C1+
0.3
C1×
0.2
Class B/C
C1×
0.8
－
－
C1
Class B/C
-1
mA
Class B/C
－
Class B/C
－
C1×
0.7
－
－
－
C1×
0.2
mA
Class B/C
－
C1
Class B/C
-1
－
mA
Class B/C
－
0.4
Class B
－
0.3
Class C
－
C1×
0.7
－
－
mA
Class B/C
－
C1
Class B/C
-1
mA
Class B/C
－
Class B/C
－
－
－
C1×
0.2
mA
Class B/C
－
Version 1.0
２．Power supply
(1) Recommended specification for the external power supply
Item
Specification
Voltage range
DC+3.3V to +4.2V (Load condition: Steady supply
in 0.1mA to 1,500mA)
Ripple
50mVp-p (0Hz to 2.5GHz) or less
Rating current
1,500mA or more
Inrush current
2A (within 100μs) or less
(2) Power supply input specification
Pin name
Min
Typ
VCC
+3.3
+3.7
Max
+4.2
Unit
(3) Transient specification of the power supply voltage rising
Pin name
Min
Typ
Max
Unit
VCC
50
msec
－
－
Remarks
－
Remarks
Refer to the following figure for
waveform.
●Transient waveform of power supply voltage rising
VCC[V]
4.2
3.7
3.3
Steady supply
50msec
T[msec]
19
Version 1.0
■Power supply control
(1) Power supply control
●Start/Stop flow of this device
Power supply start
Automatic start
Under starting process
In operation state
AT*DPWROFF
PWRKEY_OFF_n to SG
Process to stop
This device stop state
Process to start
Power supply stop
PPWRKEY_ON_n to SG
●Power supply control
Item
Process
Automatic start
・This device automatically starts by being
supplied
・To start this device in stop state, please
make PWRKEY_ON_n SG or power
supply stop with the interval more than
three seconds, and then start by applying
power supply again.
・This device stops by making
PWRKEY_OFF_n pin SG or carrying out
AT*DPWROFF.
Start
Stop
Remarks
20
・LEDG_n becomes SG by start
・When this device is in stop state by stop
of power supply, LEDG_n becomes
OPEN.
Version 1.0
(2) Pin behavior and AC characteristics
●This device operation for the PWRKEY_ON_n input status
Because it causes the malfunction, please input pulses more than specified time. It is recognized as a
demand only at the time of state change from OPEN to SG.
Pin state
OPEN→SG→OPEN
Process of this device
Start request
(It is recognized as a demand only at the time of state change from
OPEN to SG)
●AC characteristics of PWRKEY_ON_n pin
Item
PWRKEY_ON_n TPWRKEY_ON
Min
Typ
－
Max
－
Unit
msec
Remarks
－
OPEN
PWRKEY_ON_n
VIL
SG
VIL
TPWRKEY_ON
●This device operation for the PWRKEY_OFF_n pin status
Because it causes the malfunction, please input pulses more than specified time. It is recognized as a
demand when SG state continues more than 500msec.
Pin state
OPEN→SG→OPEN
Process of this device
Stop request
(It is recognized as a demand when SG state continues SG more than
500msec.)
●AC characteristics of PWRKEY_OFF_n pin
Item
PWRKEY_OFF_n TPWRKEY_OFF
Min
500
Typ
－
Max
－
Unit
msec
Remarks
－
OPEN
PWRKEY_OFF_n
SG
VIL
21
TPWRKEY_OFF
VIL
Version 1.0
●This device operation for the SYSRST_n pin status
Because it causes the malfunction, please input pulses more than specified time.
Pin state
OPEN→SG→OPEN
Process of this device
Hardware reset
(During SG state, hardware reset occurs)
●AC characteristics of SYSRST_n pin
Item
SYSRST_n
TSYSRST
Min
50
Typ
－
Max
－
Unit
msec
Remarks
－
OPEN
SYSRST_n
SG
VIL
TSYSRST
22
VIL
Version 1.0
(3) Sequence
Start and stop sequences are shown below.
◆Start method (two types)
◆Stop method (two types)
・Automatic start
・Stop by PWRKEY_OFF_n pin
・Start by PWRKEY_ON_n pin
・Stop by AT command
●Automatic start sequence (XER-SG state)
・Though this device starts automatically in case of XER-OPEN, the XCS and XDR line remain OPEN.
VCC
Power supply
OPEN
Start demand recognition is impossible
PWRKEY_ON_n
OPEN
SG
Stop demand recognition
is impossible
Stop demand recognition is possible
OPEN
PWRKEY_OFF_n
SG
This device start
OPEN
LEDG_n
SG
Max 20 sec
Max 5 sec
OPEN
XCS
Reading time of UIM card
SG
OPEN
XDR
SG
AT command is controllable
23
Version 1.0
●Start sequence by PWRKEY_ON_n pin (XER-SG state)
・In case of XER-HIGH, the XCS and XDR line remain OPEN.
・Please use this sequence for the start in the VCC supply state after the stop by PWRKEY_OFF_n pin or
the AT command.
・Because this device automatically starts regardless of the behavior of PWRKEY_ON_n pin, the start
demand by PWRKEY_ON_n pin is not recognized at the time of the automatic start. Before start by
PWRKEY_ON_n, please make sure to change PWRKEY_OFF_n to OPEN. When start process is carried
out by PWRKEY_OFF_n while PWRKEY_ON_n is SG, this device detects that PWRKEY_OFF_n is SG
after start process completed and it stops.
VCC
Power supply
OPEN
PWRKEY_ON_n
SG
1 msec
Recognize start
OPEN
PWRKEY_OFF_n
SG
Stop demand recognition
is impossible
Stop demand recognition is possible
OPEN
LEDG_n
SG
Max 20 sec
This device start
OPEN
XCS
Reading time of UIM card
SG
OPEN
XDR
Max 5 sec
SG
AT command is controllable
24
Version 1.0
●Stop sequence by PWRKEY_OFF_n pin
・After PWRKEY_OFF_n pin SG is carried out for 500 ms, there is no problem even if it is returned to OPEN
in any timing. Please return it to OPEN before the next start. When start process is carried out while
PWRKEY_OFF_n is SG, this device detects that PWRKEY_OFF_n is SG after start process completed and it
stops.
VCC
Power supply
Start demand recognition is impossible
OPEN
PWRKEY_ON
SG
_n
OPEN
PWRKEY_OF
Recognize a stop demand
SG
F_n
Stop of VCC supply is possible
500 msec
OPEN
LEDG_n
SG
This device stop
During stop process of this device (within TBD sec)
Within 2.5 sec
OPEN
XCS
SG
XDR
OPEN
SG
25
Version 1.0
(4) Connection example
●PWRKEY_ON_n pin, PWRKEY_OFF_n pin, SYSRST_n pin
①Connection example with IC
VCC1
This device
External device
(Open drain output)
IC
↑
Input pin
※ R is a dumping resistor. Please design it to adapt to the circuitry in the external device.
②Connection example with switch
This device
External device
↑
Input pin
※ R is a dumping resistor. Please design it to adapt to the circuitry in the external device.
26
Version 1.0
■System reset
The specification of system reset signal is shown below.
◆AC characteristic of SYSRST pin
Item
SYSRST_n TSYSRST
Min
1.0
Typ
－
Max
－
Unit
ms
Remarks
－
・Please do not usually use SYSRST pin.
・But because the system reset does not carry out the normal stop process and internal data saving of this
device, it may cause the internal data failure and this device may not start normally.
27
Version 1.0
３．UART interface
The specification of the UART is shown below
Item
Signal line
Communication data
speed [bps]
Configuration method
of communication data
speed
Communication format
Sending/Receiving
control
Detection of escape
Detection of break
Baud rate deviation
Specification
SD, RD, XER, XDR, XRS, XCS, XCD, XCI
1200/2400/4800/9600/19200/38400/57600/115200/230400/460800
External pins (DTE1, DTE2, DTE3), AT command
Start:1bit, Stop:1bit, Data:8bit, Parity:none
hardware flow control, software flow control, and without flow control
+++ （guard time is specified）
None
Sending:2% or less
Receiving:2% or less
■Configuration of serial communication data speed by AT command
Only when the configuration of serial communication data speed by DTE1, DTE2 and DTE3 is 19200 [bps], the
configuration by AT command can be used.
●The serial communication data speed configured by AT+IPR
Serial communication data speed[bps]
1200
2400
4800
9600
19200
38400
57600
115200
230400
10
460800
28
Remarks
－
－
－
－
Initial value
－
－
－
－
－
Version 1.0
■Connection example
●Connection to the flexible connector
(1) Connection example to the UART serial interface output pin
The UART serial interface output pins are the open drain output. At the time of the stop, it becomes high
impedance state. Unused pins should be OPEN.
This device
External device
Max5.25V
10ｋΩ
↑
Output pin
(2) Connection example to the UART serial interface input pin
External device
This device
47Ω
（Open drain output）
↑
Input pin
When this device is power off, it becomes high impedance state.
29
Version 1.0
●Connection to BtoB connector
(1) Connection example to the UART serial interface output pin (XCD、XCI、XCS、XDR、RD)
The UART serial interface output pins are the open drain output. At the time of the stop, it becomes high
impedance state. Unused pins should be OPEN.
This device
External device
↑
Output pin
[Note] R is pull-up resistor. Please design it to adapt to the circuitry in the external device.
(2) Direct Connection example to the UART serial interface input pins (XRS, XER, SD, DTE1, DTE2, DTE3)
The input pins are the Schmitt trigger input with tolerant of 5V
●Direct connection example to the UART serial interface input pins
External device
This device
+1.8V～+5V
IC
↑
Input pin
[Note] R is pull-up resistor. Please design it to adapt to the circuitry in the external device.
30
Version 1.0
●Open drain connection example to the UART serial interface input pins
Please input the open drain output when the external device which can not meet DC characteristic is
connected.
+1.8V～+5V
External device
This device
R1
VCC1
R2
(Open drain output)
↑
Input pin
IC
[Note] R1 is pull-up resistor and R2 is dumping resistor. Please design it to adapt to the circuitry in the
external device.
●Connection example to DTE1、DTE2、DTE3 input pins
When fixed serial communication data speed is used, please fix the level by pull-up or pull-down
depending on configuration value.
External device
This device
+1.8V～+5V
Pull-up
R1
↑
Input pin
Pull-down
↑
Input pin
R2
[Note] R1 is pull-up resistor and R2 is pull-down resistor. Please design it to adapt to the circuitry in the
external device.
[Requirement of SD pin and RD pin]
(1) Requirement of SD pin (input)
①When the external device which is connected to SD pin can not meet DC characteristic, it is necessary
to be connected by the open drain output. Dull of wave pattern caused by connection of the open drain
output may cause data communication failure. Therefore, requirement for the input waveform for the
connection of the open drain output is specified.
31
Version 1.0
②For the requirement for SD pin input waveforms, the ratio per one bit of data which is measured in
voltage level of SG interval [A] and OPEN interval [B] should be adjusted within from 50:50 to 56:44.
・This requirement is applied for the waveform that was measured at the most close point to the main
connector.
・The slope of the rising wave pattern depends on the circuitry of the external device. In case that the
dull of the wave pattern is big and the ratio of SG is wider, for example, please adjust it so that the dull
of the wave pattern becomes small to reduce the pull-up resistor value.
●SD pin (input) wave pattern
Assume this section 100
【B】
【A】
Vt+(Max)1.29V
The ratio of 【A】 and 【B】
Within from 50：50 to 56：44
Vt+：The OPEN level threshold voltage of
this device
Vt-：The SG level threshold voltage of this
device
SD pin
Vt-(Max)0.67V
Vt-(Max)0.67V
●Waveform measurement point of UART serial receiving data (SD pin)
This device
External device
Measurement point
Circuit
Main connector
(2)Requirement of RD pin (output)
①The RD pin is the open drain output.
②Dull of rising wave pattern may cause any failure. Please confirm it each external devices to be
connected. In case that the dull of the wave pattern is big, for example, please adjust it in external
device so that the dull of the wave pattern becomes small to reduce the pull-up resistor value.
32
Version 1.0
４．USB interface
The USB interface of this device is based on USB 2.0 specification. The transmission and reception of data is
possible as a USB device. You can use it for the control by the AT command. The connection with the USB host
is disconnected when you make reboot (power off / on, reset by AT*DHWRST).
Item
Communication
standard
Communication
speed
Signals
Virtual COM port
Specification
Conformity USB2.0 (Device)
FULL SPEED (12Mbit/s), 、HIGH SPEED (480Mbit/s)
USB_DPLUS, USB_DMINUS, USB_VBUS, USB_H_RDY_ｎ,
USB_D_RDY_ｎ
Port1 : Modem control
Port2 : Network card control
■Connection example
(1) USB interface pin (USB_DPLUS, USB_DMINUS, USB_VBUS)
●Connection example to the external device
This device
External device
USB host
USB_DPLUS
USB_DMINUS
USB_VBUS
SG
[Note] USB_VBUS does not mean power supply of 5V from a host, and it mean a USB host connection state.
(2)USB_D_RDY_n output pin
This output pin is the open drain output.
At the time of the stop of this device, it becomes the high impedance state. In case of unused condition, set a
pin as OPEN.
●Connection example to USB_D_RDY_n output pin
33
Version 1.0
This device
External device
↑
Output pin
[Note] R is pull-up resistor. Please design it to adapt to the circuitry in the external device.
(3)USB_H_RDY_n input pin
The input composes it of Schmidt trigger of 5V tolerant.
When you connect the external device which cannot meet DC characteristics, it is necessary to input at this
device by the output of the open drain.
●Direct connection example to USB_H_RDY_n input pin
+1.8V～+5V
This device
External device
IC
↑
Input pin
[Note] R is dumping resistor. Please design it to adapt to the circuitry in the external device.
●Open drain connection example to USB_H_RDY_n input pin
External device
+1.8V～+5V
This device
R1
VCC1
R2
(Open drain output)
IC
↑
Input pin
[Note] R1 is pull-up resistor and R2 is dumping resistor. Please design it to adapt to the circuitry in the
external device.
34
Version 1.0
５．Monitor interface
■Antenna indication
●Antenna indication specification
In
operation
State
Out of service
ANT1_n
OPEN
ANT2_n
OPEN
Antenna one bar
SG
OPEN
Antenna two bars
OPEN
SG
Antenna three bars
SG
SG
During download
Depends on
receiving signal
level
SG
Depends on
receiving
signal level
SG
OPEN
OPEN
Depends on
receiving signal
level
Depends on
receiving
signal level
During
software
update
During rewriting
(SW update mode 3)
During reboot
(SW update mode 3)
During the update
completion
notification
transmitting
(SW update mode 3)
※ Refer to “Software update” about the function of software update.
■Attached network indication
3G/LTE (GSM) signal indicates the attached network.
(1)LTE mode
●Attached network indication only in LTE mode (only in Japan)
Service status
3G/LTE(GSM)
In service of LTE
SG
Out of service of LTE
OPEN
(2)Roaming mode
●Attached network indication in roaming mode (out of Japan)
Service status
3G/LTE (GSM)
In service of W-CDMA
Out of service of W-CDMA
and in service of GSM
Out of service of W-CDMA
and out of service of GSM
OPEN
SG
OPEN
35
Remarks
Result code “0” (out of service) for
the AT command “AT*DANTE”.
Result code “1” (one bar) for the AT
command “AT*DANTE”.
Result code “2” (two bars) for the AT
command “AT*DANTE”.
Result code “3” (three bars) for the
AT command “AT*DANTE”.
－
Equals to the state of antenna three
bars
－
－
Version 1.0
■Communication state indication
Communication state is indicated based on the combination of TRX_n, LEDG_n and LEDGMS_n.
●Communication state indication specification
State
During stand-by
During communication
During incoming
During download
In
operation
During rewriting
(SW update mode 3)
During reboot
(SW update mode 3)
During the update
completion notification
transmitting
(SW update mode 3)
Stop state of this device
During
software
update
TRX_n
OPEN
SG
OPEN
Depends on
communication
state
OPEN
LEDG_n
SG
SG
SG
SG
SG
LEDGMS_n
OPEN
OPEN
SG⇔OPEN
Depends on
communication
state
OPEN
Remarks
－
OPEN
OPEN
OPEN
－
Depends on
communication
state
SG
Depends on
communication
state
－
OPEN
OPEN
OPEN
－
[Note1]
－
－
[Note1] Waveform of LEDGMS_n is shown below during incoming.
●Waveform of LEDGMS_n signal during incoming
0.2±0.01[s]
OPEN
LEDGMS_n
SG
1.2±0.01[s]
1.8±0.01[s]
1cycle:3.0±0.01[s]
■Software update state indication
Software update state is indicated by ADL_n signal.
●Software update state indication specification
State
ADL_n
(NW reservation type)
ADL_n
(AT command type)
Remarks
During
During download
OPEN
SG
－
software
SG
SG
－
update
During rewriting
(SW update mode 3)
During reboot
(SW update mode 3)
During the update
completion notification
transmitting
(SW update mode 3)
OPEN
OPEN
－
SG
SG
－
OPEN
OPEN
During other than software update
36
Version 1.0
■SMS receiving indication
The receiving of SMS is indicated by SMS_n.
●SMS receiving indication specification
State
1 Receiving SMS
Other than SMS receiving
SMS_n
Remarks
OPEN→SG→OPEN
－
OPEN
－
●Waveform of SMS_n when a SMS is received
OPEN
SMS_n
SG
90[ms] or more
■Area Mail receiving indication
The receiving of Area Mail is indicated by CBS_ETWS_n.
●Area Mail receiving indication specification
State
CBS_ETWS_n
Receiving Area Mail
OPEN→SG→OPEN
Other than Area Mail receiving OPEN
Remarks
－
－
●Waveform of CBS_ETWS_n when an Area Mail is received
OPEN
CBS_ETWS_n
SG
90[ms] or more
■Connection example
The monitor interface of this device is the open drain output.
●A connection example of the external LED lamp to monitor interface
At the time of the stop of this device, it becomes the high impedance state.
External device
This device
↑
Output pin
※R is a pull-up resistor. Please assume it a value to adapt to a circuitry of the external device
37
Version 1.0
６．UIM card interface
This device is equipped with UIM card interface that meets the 3GPP TS31series specifications.
UIM card is the IC card which can record the information such as phone numbers and inserts it in a card socket of
the external device to connect to this device. Please do not perform take out it, placing it in the power on state to
prevent data damage and UIM card damage.
(1) Signal
●Pin assignment of UIM card
C1
C2
C3
C4
●Pin names of UIM interface
Pin No.
Pin name
UIM_VCC(C1)
1 C1
UIM_RST(C2)
2 C2
UIM_CLK(C3)
3 C3
N.C.
4 C4
UIM_GND(C5)
5 C5
N.C.
6 C6
UIM_DIO(C7)
7 C7
N.C.
8 C8
C5
C6
C7
C8
(2) Electrical characteristic
●DC characteristic
Pin name
UIM_VCC(C1)
UIM_RST(C2)
Item
VCC
VOH
IOH
VOL
IOL
UIM_CLK(C3)
VOH
IOH
VOL
IOL
UIM_DIO(C7)
VIH
VIL
VOH
IOH
VOL
IOL
●AC characteristic
Pin name
UIM_RST(C2)
UIM_CLK(C3)
UIM_DIO(C7)
Min
2.7
1.62
C1×0.8
－
－
C1×0.7
－
－
C1×0.7
-0.3
C1×0.7
－
－
Item
TR/TF
TR/TF
TR/TF
Typ
－
－
－
-4
－
3.9
－
-4
－
3.9
－
－
－
-4
－
－
Min
－
－
－
38
Max
3.3
1.98
C1
－
C1×0.2
－
C1
－
C1×0.2
－
C1+0.3
C1×0.2
C1
－
C1×0.4
0.3
Typ
－
－
－
Max
400
50
1.0
Unit
mA
mA
mA
mA
mA
mA
Unit
μs
ns
μs
Remarks
Class B
Class C
Class B/C
Class B/C
Class B/C
Class B/C
Class B/C
Class B/C
Class B/C
Class B/C
Class B/C
Class B/C
Class B/C
Class B/C
Class B
Class C
Class B/C
Remarks
－
－
－
Version 1.0
(3) Connection method
For an output signal from this device, please be connected directly with a card socket to comply DC and AC
characteristics. If its connection is not direct, please care for the delay of signal timing and loss of signal level
●The recommended equivalent circuit for UIM card interface
UIM card
socket
UIMcardI/F
Power supply part
ModemchipLSI
UIM
card
I/F
C1
C1
C2
C2
C3
C3
C5
C5
C7
C7
C4
C6
C8
Not in use
Internal of this device
(4) Recommended card socket
Please use the following recommended card socket.
●Recommended card socket
Size
Model
Standard
SF7W006S1AE1000
Mini
SF15W006S4BR2000
Manufacturer
Japan Aviation Electronics Industry
Japan Aviation Electronics Industry
Remarks
Hinge type
Hinge type
(5) PIN code
In this device, only PIN1 code is used for the password of the DOCOMO UIM card.
●About
PIN1 code
The PIN1 code is four digits to eight digits of passwords to input to prevent the unauthorized use of the
terminal by the third party.
It comes to be able to use service using LTE networks such as packet communication, SMS by
inputting PIN1 code.
●Input
of PIN1 code
Input of the PIN1 code is necessary when PIN1 code becomes effective. At the time of the subscription,
the PIN1 code is set for invalidity.
●Change
of PIN1 code
The PIN1 code is set to “0000” at the time of the subscription. You can change the code when necessary.
Please note that three consecutive failed attempts to enter the PIN1 code will automatically lock the code
entry. Please do not forget the set PIN1 code by writing it down and saving it in a secure location
39
Version 1.0
●About
PIN1 unlock code
The PIN1 unlock code is used to clear the locked state of the PIN1 code. This code will be provided to
the customer at the time of the subscription. Entering the eight digits PIN1 unlock code clears the locked
state. Note that ten consecutive failed attempts to enter the PIN1 unlock code will automatically lock the
code entry. If you forget the PIN1 unlock code or when the PIN1 code lock can not be cleared, please
contact the customer service.
７．RF connector (Main/Sub)
This device is equipped with RF connectors to connect the antenna.
Pin1(Signal pin)
Pin2 (SG)
■Used connector
●A model name and the manufacturer name of the RF connector are shown below
RF connector
(This device side)
RF connector [Note1]
(External device side)
Model name
U.FL-R-SMT
U.FL-LP-040
U.FL-LP-066
Manufacturer
Hirose Electric CO., LTD
Hirose Electric CO., LTD
[Note1] Confirm the details with the manufacturer, as the part number will be different depending on the
diameter of the used cable.
■Pin assignment
●Pin assignment
Signal
TRX
connector
(Main)
TRX
connector
(Sub)
Transmit
and
receive
Receive
No.
Pin
name
Description
TRX
SG
TRX
Transmit and
receive signal
Grounding
Receive signal
SG
Grounding
40
Signal Direction
(This device ⇔
Antenna)
⇔
－
⇔
－
Remarks
2GHz/800MHz
RF signals
－
2GHz/800MHz
RF signals
Version 1.0
８．External antenna
・The external antenna (optional product) of DOCOMO can be used as the external antenna to be connected to
this device.
・Plural antennas, which are main antenna (for transmit and receive) and sub antenna (for receive), can be
connected.
・About the selection of use of the plural or single antenna, it can be configured by the command
“AT*KMIMO” which is the AT command to select MIMO receiving or not MIMO receiving.
・If “not MIMO receiving” is selected, this device can be in operation with single antenna. In that case, please
connect the external antenna to main antenna connector.
●External antennas of the optional products (Sale product particularly) of DOCOMO
Name
Connector type
Roof-top antenna for
FOMA adaptor 02
SMA-P
Simple antenna for
FOMA adaptor
SMA-P
Compact water-proof
antenna for FOMA
adaptor
SMA-P
Remarks
Dual band (2 GHz/800 MHz) antenna
Supplied with an antenna cable (about 5.5 meters long)
Dual band (2 GHz/800 MHz) antenna
Supplied with an antenna cable (about 5.0 meters long)
Dual band (2 GHz/800 MHz) antenna
Supplied with an antenna cable (about 2.5 meters long)
The connector adaptation methods (U.FL to SMA) for connecting this device to the antenna recommended in the
above list are shown below, with examples of adaptor types.
As the method of connector adaptation, you can use either an adaptor cable or a combination of an adaptor
connector and an RF cable. Please refer to the manufacturer for the specification of cable and connector.
[Adaptor cable]
This adaptor cable is used to converts RF connector (U.FL female) into a SMA-male.
Model number
HRMJ-U.FL-066N1-A-100RS
Manufacturer
Hirose Electric CO., LTD
Type
U.FL female to
SMA female
Remarks
Cable length 100mm
Type
U.FL female to
U.FL female
Remarks
Cable length 80mm
Cable color black
Type
U.FL male to
SMA female
Remarks
For direct connection
to the circuit board.
[RF cable and adaptor connector]
●RF cable
Model number
U.FL-2LP-04K2T-A-(80)
Manufacturer
Hirose Electric CO., LTD
●Adaptor connector
Model number
HRMJ-U.FLJ-PC-1
Manufacturer
Hirose Electric CO., LTD
41
Version 1.0
forexternal
connecting
Precautions forPrecautions
connecting to the
device
to the external device
Precautions
Precautionfor
fordesign
designofofthe
theexternal
external device
device
The external device must be adequately designed to provide sufficient heat dissipation so that the internal
temperature of the external device will not exceed the operating environment temperature range specified for this
device (+60°C) when this device is installed in the external device.
In addition, the external device must be adequately designed to provide sufficient heat dissipation so that the
surface temperature of the enclosure of this device will not exceed +85°C as this device may generate excess heat
depending on the communication condition.
42
Version 1.0
Recommended
installation
method
Recommended
installation
method
■In case of using the flexible connector
Flexible cable
This device
・Low DC resistance
Screw
RF cable
M2 W sems screw
Graphite sheet
Metal spacer
Outside diameter:
φ4, L=3 ㎜
Heat dissipationsheet
External device PCB
M2 hex nut
・There not being unnecessary radiation in receive frequency band.
・Shields the sensitive circuit as measure to protect from RF power.
・Use a conductive material. (e.g. PCB, metal chassis, etc.)
for the mounting surface of the external device to enable sufficient heat transfer.
・Do not short-circuit with a ground of the external device side.
In case of using the flexible connector, this device can be used only in Japan.
■In case of using the BtoB connector
BtoB connector for connection to external equipment to is the board to board connector, please use a spacer of
the height same as the stacking height of the board to board connector (3mm).
RF cable
This device
M2 W sems screw
Graphite sheet
BtoB connector
Stancking height 3mm
Heat dissipationsheet
M2 hex nut
Metal spacer
Outside diameter:
φ4, L=3 ㎜
External device PCB
・There not being unnecessary radiation in receive frequency band.
・Shields the sensitive circuit as measure to protect from RF power.
・Use a conductive material. (e.g. PCB, metal chassis, etc.)
for the mounting surface of the external device to enable sufficient heat transfer.
・Do not short-circuit with a ground of the external device side.
In case of using the BtoB connector, this device can be used both in Japan and outside of Japan.
43
Version 1.0
■Antenna connection
Please connect antennas as following figure.
・Do not pull the RF cable with too much force. It may cause damage to the RF connector
・Avoid an excessive twisting action upon connection or disconnection the connector as such an action can
cause damage to the connector.
・After connect fit, please do not add load more than that is shown in following figure to a cable.
●Permission load for the cable after the connector fit
U.FL-LP
Harness type
1N or less(U.FL-LP(V)-040)
2N or less(U.FL-LP-040、U.FL-LP-066)
U.FL-R-SMT
U.FL-R-SMT-1
3N or less(U.FL-LP(V)-040)
4N or less(U.FL-LP-040、U.FL-LP-066)
1N or less(U.FL-LP(V)-040)
2N or less(U.FL-LP-040、U.FL-LP-066)
44
Version 1.0
Operation mode
Operation mode
Communication
mode
Communication
mode
This device supports three communication modes. Only in roaming mode, this device supports the communication
method selection function.
●Supported communication mode
Communication mode
LTE mode (fixed)
Roaming mode (fixed)
Auto selection mode
Description
Operated in LTE network only in Japan
Operated out of Japan.
Select the communication mode (LTE or Roaming)
automatically
Remarks
Default
[Note1]
[Note1] Only in roaming mode, the communication method can be configuration by AT*KNWMODE.
Communication modes which can be selected are dual of WCDMA+GSM (default), WCDMA single and
GSM single.
・If flexible connector is used to connect to the external device, then only LTE mode can be available.
・Communication mode and method can be changed by AT command. And the configuration is stored in this
device.
・After the communication mode is changed by AT command, please reboot this device
・This device reports the UE Capability corresponding with the selected communication mode to the network.
●LTE mode
◆Supported communication method : LTE
◆Supported mobile phone career : only NTT DOCOMO
◆Roaming operation : None （Because LTE mode is used only in Japan)
●Roaming mode
◆Supported communication method : WCDMA, GSM
Configuration can be dual of WCDMA+GSM or WCDMA single or GSM single.
◆Supported mobile phone career : Mobile phone career out of Japan
45
Version 1.0
●Auto selection mode
(1)In this mode, this device selects the communication mode automatically.
(2)After this device selects the communication mode automatically, this device holds the communication mode
with the selected one, which is LTE mode or roaming mode.
(3)Actual working communication mode in auto selection mode can be confirmed by AT command.
(4)In this mode, this device selects the communication mode only at the time of start timing of this device. It
select the communication mode based on the condition of the radio environment (detected mobile phone
career).
●Condition to select the communication mode in auto selection mode
No.
Condition of radio environment
One or more Japanese mobile phone career is detected
Any mobile phone career is not detected
Only the mobile phone career out of Japan is detected
Selected mode
LTE mode
LTE mode
Roaming mode
●Precausion
Please note that the following description for the peculiar cases.
(1)In case that communication mode is roaming mode and communication method is dual of WCDMA+GSM or
WCDMA single, if Japanese mobile phone career is detected, this device will automatically reset with auto
selection mode.
(2)Because the accesses of this device is limited to only DOCOMO network in LTE mode operation, this device
never access to other mobile phone career in LTE communication method. If this device moves from inside
Japan to outside Japan in LTE mode operation, this device should be reset from the external device to keep
operation because this device does not have the function to detect the moving to outside Japan.
(3) If this device moves from outside Japan to inside Japan in roaming mode operation and GSM single method,
this device should be reset from the external device to keep operation because this device does not have the
function to detect the moving to inside Japan.
46
Version 1.0
Service function
Service function
Packet communication
Packet communication
The data communication speed this device supports is 112.5Mbps max for downlink and 37.5Mbps max for
uplink in LTE network, and 42.2Mbps max for downlink and 5.7Mbps max for uplink in W-CDMA network , and
237kbps for both downlink and uplink in GSM network.
【Summary of function】
・This device establishes PPP protocol for the external device with the trigger of originating or incoming
control by AT command. Then this device carries out the PDP/PDN link connection of radio segment
・This device configures the IP address of the external device using PPP. IPV4 and IPV6 are supported for IP
address.
・The interface which the external device can use in packet communication is UART and USB interface. Each
interface controls the packet communication independently. The multi PDP connection, that can do the
multiple communication in same time, is supported. Multi PDP connection is valid only in operation of LTE
communication mode.
・The USB interface provided to the external device is modem type (RAS method) and LAN type (NDIS
method).
・The incoming of packet communication incoming is supported only with modem type USB interface. It is not
supported with the LAN type USB interface.
■In case of the operation in LTE communication mode
・ At least one PDP type and APN must be configured. (The detail of PDP type and APN is described later.)
Please configure them by AT+CGDCONT.
・ The configuration of the peculiar function of LTE communication (packet communication and NDIS automatic
connection) is required.
Please configure it by AT*KALWAYSON.
■In case of the operation in roaming communication mode
・ The communication mode of this device must be configured.
Please configure it by AT*KNWMODE.
・ PDP type and APN must be configured before the packet communication.
Please configure it by AT+CGDCONT.
47
Version 1.0
■PDP type
This device supports two PDP type. They are PDP-Type=PPP and PDP-Type=IP.
In case of PDP-Type=IP, IPv4 and IPv6 can be configured as IP type.
Only IPv4 is supported as static IP address.
PDP-Type=PPP of LAN card type is not supported.
Please configure by AT+CGDCONT to suitable for the customer’s environment with considering above
condition.
●Supported IP address
PDP-Type
IPv4
Static
Dynamic
IPaddress IPaddress
IPv6
Static
Dynamic
IPaddress IPaddress
IPv4v6
Static
Dynamic
IPaddress IPaddress
PPP（pseudo）
○
○
×
×
×
×
IP
○
○
×
○
×
×
○：Supported, ×：Not supported
■APN
In the packet communication, the LAN/ISP in the company to be accessed is appointed in the access point names
(APN) instead of phone number, and this device carries out dial-up connection using it. Please register the
Access Point Name (APN) for each connection point in this device prior to communication. And then, please
appoint the registration number (cid*) as the other party phone number to connect. For the connection to each
provider or LAN in the company, it is necessary to register the corresponding APN for each connection point.
The max number of APN can be configured in this device is twenty
Please configure the APN by AT+CGDCONT by terminal software.
At the factory shipment, APN is not configured.
The APN used in mock packet incoming is limited to the APN which corresponds to the CID configured by
AT*KALWAYSON
48
Version 1.0
SMS
SMS
This device supports the sending, receiving, storage and display of SMS (Short Message Service)
●Supported SMS service
Supported SMS service
General text SMS
Notification of SMS delivery
information
Center push SMS
Sending/Receiving
Sending/Receiving
Remarks
Supports linked SMS
Receiving
Receiving
●Supported SMS service for each communication mode
Supported SMS service
LTE mode
General text SMS
○
Notification of SMS delivery
○
information
Center push SMS
○
Roaming mode
○
Remarks
○
×
○：Supported, ×：Not supported
Area
Mail
Area
Mail
This device can receive earthquake early warning and tsunami warning delivered by the Japan Meteorological
Agency and disaster and evacuation information delivered by national and regional public institution.
■Supported Area Mail method
This device supports ETWS method. The ETWS method delivers the Area Mail to the external device faster by
using simple information notification.
Method
The process of the notification
ETWS
Notify the warning information by two steps. (two messages)
1. Notify only the simple information (warning for the earthquake and tsunami).
2. Notify the information about the warning by the Area Mail text.
■Supported Area Mail method for each communication mode
Method
ETWS
LTE mode
○
Roaming mode
×
○：Supported, ×：Not supported
49
Remarks
Version 1.0
Software
update
Software
update
Software update function is used to update its software via the LTE network to improve the functions of this device
after sale.
Because the communication between this device and the server in allocated in DOCOMO network to carry out
software update, this function is available only in DOCOMO network.
If other mobile phone career’s UIM card is used or this device is used outside of Japan, software update can not be
carried out.
■Software update method
This device supports the following two software update methods
(1) Software update from the network (PUSH type software update)
Software update is carried out by receiving the control SMS from server in DOCOMO network.
(2) Software update from the external device (PULL type software update)
Software update is carried out by receiving the AT command “AT*DSWU=0” from the external device.
RFRF
part
ON/OFF
function
part
ON/ OFF
function
This device has RF part ON/OFF function.
The status of RF part ON/OFF can be changed by AT+CFUN command.
50
Version 1.0
AT command
AT command
AT AT
command
listlist
command
No.
10
11
12
13
14
Command
ATA
ATD
ATE
ATH
ATI
ATO
ATQ
ATV
ATX
ATZ
AT&C
AT&D
AT&F
AT&W
15
AT&Z
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
ATS0
ATS6
ATS7
ATS8
ATS10
ATS61
ATS64
ATS65
AT¥S
+++
AT+GCAP
AT+GMI
AT+GMM
AT+GMR
AT+IFC
AT+IPR
AT+CRON
AT+PNRII
AT*DANTE
AT*DHWRST
AT*DRPW
AT*DSWU
AT+CCLK
AT+CEER
AT+CGDCONT
AT+CGMR
42
AT+CGREG
43
44
45
46
47
48
49
AT+CGSN
AT+CLCK
AT+CMEE
AT+CNUM
AT+CPAS
AT+CPIN
AT+CPWD
Function
Carry out manual operated incoming response of packet communication。
Carry out originating of packet communication。
Configure the echo existence or nonexistence for the sent command from the external device.
Disconnect the packet communication.
Display the product information about this device
Return to online data mode from online command mode
Configure existence or nonexistence of result code sending after carrying out of the command
Configure the result code to numeric or English character
Configure the communication speed indication in the CONNECT indication at the time of packet connection
Overwrite the configuration value of this device to the contents of the non-volatile memory
Select the behavior of CD line to external device
Select the behavior of this device by ER line in online data mode
Initialize the configuration value of this device at the time of the factory shipment
Store the configuration value of this device to non-volatile memory
Initialize the configuration value of this device and the contents of non-volatile memory to factory shipment
value
Configure the number of times of RING until auto answer
Configure the pose time until dialing
Configure the wait time for the connection in packet communication after originating
Configure the pose time (unit: sec) by comma dial.
Configure the delay time for the automatic disconnection
Display and reset the number of boot times by PWRKEY
Display and reset the number of boot times by AT*DHWRST
Display and reset the number of boot times by SYSRST button
Display the present configuration of this device
Transfer from online data mode to online command mode
Display the supported range of AT command
Display the manufacturer of this device
Display the model (product name) of this device
Display the version of this device
Configure the flow control method between the external device and this device
Configure the serial communication speed between the external device and this device
Get the APN of previous incoming of packet communication
Display the restriction state of the network
Display the antenna level of this device.
Carry out the hardware reset of this device
Display the indication of received radio wave power for this device
Carry out start and stop of the software update and confirm the state
Get the internal time information of this device
Display the reason for previous disconnection of packet communication
Configure the access point name (APN) for packet communication
Display revision (IMEISV) of this device
Configure existence or nonexistence of display of +CGREG unsolicited result code in case of transferring to
in-service area from out-of-service area during packet communication
In addition, confirm the current state of in-service or out-of-service
Display the production number (IMEI) of this device
Enable or disable the PIN1 code and display the state of the PIN1 code
Configure the error report indication of this device
Display the phone number of the DOCOMO UIM card connected to this device
Inquire whether this device can send and receive the control signal.
Verify the PIN1 code and cancel the PIN1 code lock
Change PIN1 code
51
Version 1.0
50
51
AT+CR
AT+CRC
52
AT+CREG
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
AT+CSCS
AT+CMGD
AT+CMGF
AT+CMGL
AT+CMGR
AT+CMGS
AT+CMGW
AT+CMSS
AT+CNMA
AT+CNMI
AT+CPMS
AT+CSCA
AT+CSDH
AT+CSMP
AT+CSMS
AT*DCHKLOC
AT*DCHKANT
AT*DPWROFF
AT*DTELNUM
AT*DCMGS
AT*DMEMFULL
A/
AT&P
AT!
77
AT+CGACT
78
79
80
81
82
83
84
85
AT*KDEGSET
AT*KDEG
AT+CFUN
AT+CEREG
AT*KNWMODE
AT*KATMODE
AT*KICCID
AT*DLANTE
86
AT*KINDSET
87
88
89
90
91
92
93
AT*KMIMO
AT+COPS
AT*KCMGR
AT*KCMGD
AT*KCNMI
AT*KNDIS
AT*KALWAYSON
Configure existence or nonexistence of +CR (unsolicited result) display at the time of packet connection
Configure existence or nonexistence of +CRING (unsolicited result) display at the time of packet incoming
Configure existence or nonexistence of +CREG (unsolicited result) display when the state of circuit switching
area transfers from out-of-service area to in-service area
In addition, confirm the current state of in-service area or out-of-service area
Configure the character code used for output and input of SMS and Area Mail to/from the external device
Delete SMS
Configure the format of SMS and Area Mail
Display SMS and Area Mail of appointed state
Display SMS and Area Mail of appointed stored number
Send SMS
Store SMS in DOCOMO UIM card or this device
Send SMS stored in the memory
Notify the reception result to network at the time of receiving SMS
Configure the notification method at the time of receiving SMS and Area Mail
Configure the memory used for displaying, deleting and storing SMS and Area Mail
Configure SMS center number
Configure existence or nonexistence of indication of the detailed header information in the TEXT mode
Configure the parameter to send SMS in TEXT mode (AT+CMGF=1)
Configure the additional process of SMS message service
Confirm radio wave environment at the time of the antenna setting
Display the condition whether communication is possible
Stop this device
Link the APN to the phone number and register them
Send SMS directly
Notify that SMS can not be received because of lack of stored area (memory full)
Carry out again the previous carried out command
Display the phone number stored in DOCOMO UIM card
Display the status of present this device
Carry out the connection and disconnection of NDIS.
Display the use condition for the CID configured by AT+CGDCONT
Configure the indication of the temperature in case that temperature becomes higher than the threshold.
Display the temperature of this device
Configure the ON/OFF of the RF part
Configure the indication of in-service or out-of-service for the LTE network
Configure the communication method
Configure the operation mode of AT command
Display the identification number with 19 digits (ICCID) of UIM
Display the LTE antenna level of this device.
Configure the identification of SMS receiving, Area Mail receiving and arrival to the threshold temperature by
the signal line
Configure the MIMO or not MIMO receiving
Configure the PLMN (MCC + MNC) in roaming mode operation
Display the linked SMS
Delete the linked SMS
Configure the indication method at the time of linked SMS receiving
Configure the parameter of manual NDIS connection
Configure the parameter of Always-ON connection
52
FCC Regulatory notices
Modification statement
“Hitachi Kokusai Electric Inc.” has not approved any changes or modifications to this device by the user. Any
changes or modifications could void the user’s authority to operate the equipment.
Interference statement
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1)
this device may not cause interference, and (2) this device must accept any interference, including interference
that may cause undesired operation of the device.
Wireless notice
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. The
antenna should be installed and operated with minimum distance of 20 cm between the radiator and your body.
Antenna gain must be as below:
Frequency band
GSM 850/FDD V
PCS 1900
Maximum antenna gain
3.42 dBi
2.01 dBi
This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter.
FCC Class B digital device notice
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to
part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful
interference in a residential installation. This equipment generates uses and can radiate radio frequency energy
and, if not installed and used in accordance with the instructions, may cause harmful interference to radio
communications. However, there is no guarantee that interference will not occur in a particular installation. If
this equipment does cause harmful interference to radio or television reception, which can be determined by
turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the
following measures:
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
Labelling Requirements for the Host device
The host device shall be properly labelled to identify the modules within the host device. The certification label
of the module shall be clearly visible at all times when installed in the host device, otherwise the host device
must be labelled to display the FCC ID of the module, preceded by the words "Contains transmitter module", or
the word "Contains", or similar wording expressing the same meaning, as follows:
Contains FCC ID: TTIUM04KO
53
1999/5/EC Directive regulatory notices
This device has been evaluated against the essential requirements of the 1999/5/EC Directive.
Bulgarian
Croatian
Czech
Danish
Dutch
English
Estonian
German
Greek
Hungarian
Finnish
French
Icelandic
Italian
Latvian
Lithuanian
Maltese
Norwegian
Polish
Portuguese
Slovak
Slovenian
Spanish
Swedish
С настоящето ““Hitachi Kokusai Electric Inc.” декларира, че ““UM04-KO”отговаря на съществените изисквания и
другите приложими изисквания на Директива 1999/5/ЕС.
Ovime “Hitachi Kokusai Electric Inc.”, izjavljuje da je ovaj “UM04-KO” je u skladu s osnovnim zahtjevima i drugim
relevantnim odredbama Direktive 1999/5/EC.
““Hitachi Kokusai Electric Inc.” tímto prohlašuje, že tento ““UM04-KO”je ve shodě se základními požadavky a dalšími
příslušnými ustanoveními směrnice 1999/5/ES.
Undertegnede ““Hitachi Kokusai Electric Inc.” erklærer herved, at følgende udstyr ““UM04-KO”overholder de
væsentlige krav og øvrige relevante krav i direktiv 1999/5/EF.
Hierbij verklaart ““Hitachi Kokusai Electric Inc.” dat het toestel ““UM04-KO”in overeenstemming is met de essentiële
eisen en de andere relevante bepalingen van richtlijn 1999/5/EG.
Hereby, ““Hitachi Kokusai Electric Inc.”, declares that this ““UM04-KO”is in compliance with the essential requirements
and other relevant provisions of Directive 1999/5/EC.
Käesolevaga kinnitab ““Hitachi Kokusai Electric Inc.” seadme ““UM04-KO”vastavust direktiivi 1999/5/EÜ põhinõuetele
ja nimetatud direktiivist tulenevatele teistele asjakohastele sätetele.
Hiermit erklärt ““Hitachi Kokusai Electric Inc.”, dass sich das Gerät ““UM04-KO”in Übereinstimmung mit den
grundlegenden Anforderungen und den übrigen einschlägigen Bestimmungen der Richtlinie 1999/5/EG befindet.
ΜΕ ΤΗΝ ΠΑΡΟΥΣΑ ““Hitachi Kokusai Electric Inc.” ΔΗΛΩΝΕΙ ΟΤΙ ““UM04-KO”ΣΥΜΜΟΡΦΩΝΕΤΑΙ ΠΡΟΣ ΤΙΣ
ΟΥΣΙΩΔΕΙΣ ΑΠΑΙΤΗΣΕΙΣ ΚΑΙ ΤΙΣ ΛΟΙΠΕΣ ΣΧΕΤΙΚΕΣ ΔΙΑΤΑΞΕΙΣ ΤΗΣ ΟΔΗΓΙΑΣ 1999/5/ΕΚ.
Alulírott, ““Hitachi Kokusai Electric Inc.” nyilatkozom, hogy a ““UM04-KO”megfelel a vonatkozó alapvetõ
követelményeknek és az 1999/5/EC irányelv egyéb elõírásainak.
““Hitachi Kokusai Electric Inc.” vakuuttaa täten että ““UM04-KO”tyyppinen laite on direktiivin 1999/5/EY oleellisten
vaatimusten ja sitä koskevien direktiivin muiden ehtojen mukainen.
Par la présente ““Hitachi Kokusai Electric Inc.” déclare que l'appareil ““UM04-KO”est conforme aux exigences
essentielles et aux autres dispositions pertinentes de la directive 1999/5/CE.
Hér með lýsir ““Hitachi Kokusai Electric Inc.” yfir því að ““UM04-KO”er í samræmi við grunnkröfur og aðrar kröfur,
sem gerðar eru í tilskipun 1999/5/EC
Con la presente ““Hitachi Kokusai Electric Inc.” dichiara che questo ““UM04-KO”è conforme ai requisiti essenziali ed
alle altre disposizioni pertinenti stabilite dalla direttiva 1999/5/CE.
Ar šo ““Hitachi Kokusai Electric Inc.” deklarē, ka ““UM04-KO”atbilst Direktīvas 1999/5/EK būtiskajām prasībām un
citiem ar to saistītajiem noteikumiem.
Šiuo ““Hitachi Kokusai Electric Inc.” deklaruoja, kad šis ““UM04-KO”atitinka esminius reikalavimus ir kitas 1999/5/EB
Direktyvos nuostatas.
Hawnhekk, ““Hitachi Kokusai Electric Inc.”, jiddikjara li dan ““UM04-KO”jikkonforma mal-ħtiġijiet essenzjali u ma
provvedimenti oħrajn relevanti li hemm fid-Dirrettiva 1999/5/EC.
““Hitachi Kokusai Electric Inc.” erklærer herved at utstyret ““UM04-KO”er i samsvar med de grunnleggende krav og
øvrige relevante krav i direktiv 1999/5/EF.
Niniejszym ““Hitachi Kokusai Electric Inc.” oświadcza, że ““UM04-KO”jest zgodny z zasadniczymi wymogami oraz
pozostałymi stosownymi postanowieniami Dyrektywy 1999/5/EC
““Hitachi Kokusai Electric Inc.” declara que este ““UM04-KO”está conforme com os requisitos essenciais e outras
disposições da Directiva 1999/5/CE.
““Hitachi Kokusai Electric Inc.” týmto vyhlasuje, že ““UM04-KO”spĺňa základné požiadavky a všetky príslušné
ustanovenia Smernice 1999/5/ES.
““Hitachi Kokusai Electric Inc.” izjavlja, da je ta ““UM04-KO”v skladu z bistvenimi zahtevami in ostalimi relevantnimi
določili direktive 1999/5/ES.
Por medio de la presente ““Hitachi Kokusai Electric Inc.” declara que ““UM04-KO”cumple con los requisitos esenciales
y cualesquiera otras disposiciones aplicables o exigibles de la Directiva 1999/5/CE.
Härmed intygar ““Hitachi Kokusai Electric Inc.” att denna ““UM04-KO”står I överensstämmelse med de väsentliga
egenskapskrav och övriga relevanta bestämmelser som framgår av direktiv 1999/5/EG.
54
In order to satisfy the essential requirements of 1999/5/EC Directive, the product is compliant with the following standards:
RF spectrum use (R&TTE art. 3.2)
EMC (R&TTE art. 3.1b)
Health & Safety (R&TTE art. 3.1a)
EN 301 511 V9.0.2
EN 301 908-1 V6.2.1
EN 301 908-2 V6.2.1
EN 301 908-13 V6.2.1
EN 301 489-1 V1.9.2
EN 301 489-7 V1.3.1
EN 301 489-24 V1.5.1
EN 60950-1:2006 + A11:2009 + A1:2010 + A12:2011 + AC:2011
+ A2: 2013
The conformity assessment procedure referred to in Article 10 and detailed in Annex IV of Directive 1999/5/EC has been followed
with the involvement of the following Notified Body:
AT4 wireless, S.A.
Parque Tecnologico de Andalucía
C/ Severo Ochoa 2
29590 Campanillas – Málaga
SPAIN
Notified Body No: 1909
Thus, the following marking is included in the product:
There is no restriction for the commercialization of this device in all the countries of the European Union.
Final product integrating this module must be assessed against essential requirements of the 1999/5/EC (R&TTE) Directive. It should
be noted that assessment does not necessarily lead to testing. Hitachi Kokusai Electric Inc. recommends carrying out the following
assessments:
RF spectrum use (R&TTE art. 3.2)
It will depend on the antenna used on the final product.
EMC (R&TTE art. 3.1b)
Testing
Health & Safety (R&TTE art. 3.1a)
Testing
55

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