LongSung Technology U5501 HSDPA Module User Manual U5501

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U5501_Hardware_User_Guide _V2.3
U5501_Hardware_User_Guide_V2.3
Page 1 of 59
IMPORTANT NOTICE
COPYRIGHT NOTICE
Copyright©2010, LongSung Technology (Shanghai) Co., Ltd. All rights
reserved.
TRADEMARKS
LongSung Technology (Shanghai) Co., Ltd’s products are exclusively owned by
LongSung Technology (Shanghai) Co., Ltd. References to other companies and
their products use trademarks owned by the respective companies and are for
reference purpose only.
CONFIDENTIALITY
The information contained here (including any attachments) is confidential. The
recipient here acknowledges the confidentiality of this document, and except for
the specific purpose, this document shall not be disclosed to any third party.
WARRANTY DISCLAIMER
LongSung Technology (Shanghai) Co., Ltd makes no representations or
warranties, either express or implied, by or with respect to anything in this
document, and shall not be liable for any implied warranties of merchantability
or fitness for a particular purpose or for any indirect, special or consequential
damages.
NO GUARANTEE
Our company will not take any responsibility for any damage caused by the
customer’s abnormal operation. Please refer to specification and designing
reference guide. Our company have right to modify the document according to
technical requirement with no announcement to the customer.
U5501_Hardware_User_Guide_V2.3
Page 2 of 59
CAUTION: U5501 HSDPA module is an ESD (electrostatic discharge) sensitive
device. Electrostatic charges as high as 1 K Volts readily accumulate on the
human body and test equipment and can discharge without detection.
Permanent damage may occur on devices subjected to high-energy
electrostatic discharges. Therefore, proper ESD precautions are recommended
to avoid performance degradation or loss of functionality.
Warning:
The U5501 module is designed to comply with the FCC statements.FCC ID is
XHZU5501.The Host system using U5501 should indicated “Contains FCC ID:
XHZU5501”.
This device complies with part 15B of the FCC rules. Operation is subject to the
following two conditions:
(1) this device may not cause harmful interference
(2) this device must accept any interference, including interference that may
cause undesired operation.
Changes or modifications to this unit not expressly approved by the party
responsible for compliance could void the user's authorityto operate the
equipment.
This equipment complies with FCC/IC radiation exposure limits set forth for an
Uncontrolled environment.This equipment should be installed and operated
with minimum distance 20cm between the radiator and your body as well as
kept minimum 20cm from radio antenna depending on the portable or Mobile
status of this module usage.
The manual of the host system,which use U5501 must include RF exposure
warning statement to advice user should keep minimum 20cm from the radio
antenna of U5501 module depending on Mobile status.
The U5501 module can not be installed with other radio .such as co-located or
operating in conjunction with any other antenna or transmitter.
Antenna Type: Connector
Antenna Gain: GSM850:1.2dBi;GSM1900:1.2dBi.
U5501_Hardware_User_Guide_V2.3
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Contents
1. Overview ..................................................................................................................................8
1.1. Purpose of the document.......................................................................................8
1.2. Summary......................................................................................................................8
1.3. Correlative documents ............................................................................................8
1.4. Document’s history...................................................................................................9
1.5. Abbreviations..............................................................................................................9
2. Introduction...........................................................................................................................11
2.1. Key features ..............................................................................................................13
2.2. Operating modes.....................................................................................................15
2.3. Hardware functional block diagram .................................................................16
3. Application interfaces description .................................................................................18
3.1. 116-pin LGA PAD.....................................................................................................18
3.2. Power supply.............................................................................................................22
3.2.1. Power Supply and reference design.....................................................22
3.2.1.1. VBAT input .........................................................................................22
3.2.1.2. VRTC input .........................................................................................23
3.2.1.3. VOUT voltage output......................................................................24
3.2.1.4. POWER_ON_OFF input ..................................................................24
3.2.1.5. RESET_N input .................................................................................25
3.2.2. Power on/off time sequence ...................................................................26
3.2.2.1. Power on time sequence ..............................................................26
3.2.2.2. Normal power off time seqence.................................................26
3.2.2.3. Low power to power off ................................................................27
3.2.3. Reset time sequence..................................................................................27
3.3. USB interface............................................................................................................28
3.3.1. USB interface description.........................................................................28
3.3.2. USB reference circuit .................................................................................28
3.3.3. USB driver......................................................................................................29
3.3.3.1. Linux OS load USB driver for U5501 .......................................30
3.3.3.2. Linux OS AP use AT to control U5501 .....................................32
3.3.3.3. Linux OS AP dial PPP connection...............................................34
3.4. UART interface..........................................................................................................37
3.4.1. UART interface description ......................................................................37
3.4.2. UART interface reference circuit............................................................37
3.4.3. UART interface description ......................................................................38
3.5. U5501 sleep and wakeup control......................................................................38
3.6. Analog audio interface ..........................................................................................39
3.6.1. Analog audio interface description .......................................................39
3.6.2. Hands-free channel ....................................................................................39
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3.6.3. Handset channel ..........................................................................................39
3.6.4. Analog audio reference circuit................................................................40
3.7. PCM interface............................................................................................................41
3.7.1. PCM interface description.........................................................................42
3.7.2. Auxiliary PCM ................................................................................................42
3.7.3. Primary PCM..................................................................................................44
3.8. USIM/SIM interface ................................................................................................45
3.8.1. USIM/SIM interface description.............................................................45
3.8.2. USIM/SIM interface reference circuit ..................................................46
3.9. Status indicator interface.....................................................................................48
3.9.1. Status indicator description ....................................................................48
3.9.2. Status indicator reference circuit..........................................................49
3.10. GPIO ..........................................................................................................................50
3.11. Antenna interface .................................................................................................50
3.11.1. Solder antenna ..........................................................................................50
3.11.2. RF connector...............................................................................................51
3.11.2.1. RF cable ............................................................................................52
3.11.3. U5501 RF output power .........................................................................52
3.11.4. U5501 RF receiver sensitivity ..............................................................52
3.11.5. U5501 operating frequencies ...............................................................53
3.11.6. Antenna parameters requirement......................................................53
4. Mechanics...............................................................................................................................54
4.1. The view of U5501..................................................................................................54
4.2. 3D stack......................................................................................................................54
4.3. 2D mechanical dimensions..................................................................................55
4.4. Application side library of U5501 ......................................................................55
5. Power consumption ............................................................................................................56
6. Electrical characteristics ...................................................................................................57
6.1. Absolute maximum power ratings....................................................................57
6.2. Operating temperatures .......................................................................................57
6.3. Interface operating status ...................................................................................58
6.4. Reliability....................................................................................................................58
6.5. Electrostatic discharge ..........................................................................................59
U5501_Hardware_User_Guide_V2.3
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Tables
Table 1：Document’s update history...........................................................................9
Table2：Abbreviation and description ........................................................................9
Table3：Key features of U5501...................................................................................13
Table4：Overview operating modes ..........................................................................15
Table5：U5501116-pin LGA PAD pin definition.....................................................19
Table6：U5501 Power supply correlative interfaces ...........................................22
Table7：U5501 USB interface ......................................................................................28
Table8：U5501 UART interface ....................................................................................37
Table9：U5501 sleep and wakeup interface...........................................................38
Table10：U5501 analog audio interface description ...........................................39
Table11：U5501 second channel audio....................................................................39
Table12：U5501 first channel audio..........................................................................40
Table13：Auxiliary PCM and Primary PCM configuration...................................41
Table14：U5501 PCM interface ...................................................................................42
Table15：AUX_CODEC time sequence parameters .............................................43
Table16：PRIM_CODEC time sequence parameters............................................45
Table17：U5501 USIM/SIM interface ........................................................................45
Table18：U5501 status indicator description.........................................................49
Table19：U5501 status indicator description.........................................................49
Table20：U5501 GPIOs ..................................................................................................50
Table21：U5501 antenna interface............................................................................50
Table22：U5501 RF output power..............................................................................52
Table23：U5501 RF receiver sensitivity...................................................................52
Table24：U5501 operating frequencies ...................................................................53
Table25：U5501 antenna parameters requirement ............................................53
Table26：U5501 max current consumption in some mode..............................56
Table27：Absolute maximum power ratings..........................................................57
Table28：U5501 module operating temperature .................................................57
Table29：Digital Signal DC Characteristics.............................................................58
Table30：U5501 power supply range .......................................................................58
Table31：Requirements on the environment reliability .....................................58
Table32：The ESD endure status measured table...............................................59
U5501_Hardware_User_Guide_V2.3
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Figures
Figure1：U5501 Hardware functional block diagram .........................................16
Figure2：U5501 116-pin LGA PAD pins sign..........................................................18
Figure3：U5501 Power supply VBAT input .............................................................23
Figure4：VRTC connect to rechargeable battery..................................................23
Figure5：VRTC connect to non-rechargeable battery ........................................24
Figure6：VRTC connect to large capacitance capacity.......................................24
Figure7：POWER_ON_OFF reference circuit ..........................................................25
Figure8：RESET control module reset......................................................................25
Figure9：power on time sequence.............................................................................26
Figure10：U5501 power off time sequence ...........................................................27
Figure11：U5501 RESET time sequence .................................................................27
Figure12：U5501 USB reference circuit ..................................................................28
Figure13：U5501 UART connection...........................................................................38
Figure14：U5501 analog audio reference circuit .................................................40
Figure15：AUX_PCM_SYNC time sequence............................................................42
Figure16：AUX_PCM_CODEC to U5501 time sequence.....................................43
Figure17：U5501 to AUX_PCM_CODEC time sequence.....................................43
Figure18：PRIM_PCM_SYNC time sequence..........................................................44
Figure19：PRIM_PCM_CODEC to U5501 time sequence...................................44
Figure20：U5501 to PRIM_PCM_CODEC time sequence...................................44
Figure21：The SPEC of C707 10M006 512 2 SIM Holder .................................47
Figure22：U5501 USIM/SIM interface reference circuit....................................48
Figure23：U5501 status indicator reference circuit............................................49
Figure24：U5501 solder antenna reference circuit .............................................51
Figure25：U5501 RF connector reference circuit.................................................51
Figure26：The view of U5501......................................................................................54
Figure27：U5501 2D mechanical dimensions .......................................................55
U5501_Hardware_User_Guide_V2.3
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1. Overview
U5501 is a wireless module which is designed for the global market. It is a
consumptive product; it can be designed in many kinds of applications which
can work on HSDPA/UMTS/EDGE/GPRS/GSM network.
On HSDPA network in the world, U5501 enables connection to the Internet at DL
data speed up to 3.6Mbps. In areas where HSDPA service is not available,
U5501 still enables reliable and secure data connections over UMTS at speed up
to 384 Kbps or EDGE at speed up to 237Kbps or GPRS at speed up to 85.6Kbps.
U5501 provides Audio, SMS, Phonebook functions as well as high speed access.
It can be designed in many kinds of applications. Such as Video monitor, Tablet,
Electric-book, MID, Vehicle equipment, etc.
1.1. Purpose of the document
The document described the basic functions, supported services, the key
features, main interfaces and reference design, the mechanics and the
electronic characteristics of the module U5501. It will guide the user to design
U5501 in their applications.
1.2. Summary
The following lists the contents of this document.
— Chapter 1: Described the overview, purpose, correlative documents,
document’s history and abbreviations.
— Chapter 2: Described the basic functions, key features and hardware
interfaces of the module.
— Chapter 3: Described in detail the module’s interfaces and reference design.
— Chapter 4: Described the mechanical specifications of the module.
— Chapter 5: Described in detail the power consumptions of the module.
— Chapter 6: Described in detail electrical specifications of the module.
1.3. Correlative documents
—
—
U5501_SPEC
U5501_ATC
U5501_Hardware_User_Guide_V2.3
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—
—
—
U5501_EVB_User_Guide
U5501_Reference_Circuit
U5501_Application_Guide
1.4. Document’s history
Table 1：Document’s update history
Version
Author
Release Time
Description
V2.3
Huaming Zhang
2012-7-24
V2.3 create
1.5. Abbreviations
Table2：Abbreviation and description
Abbreviations
Description
AMR
Adaptive Multi-rate
BER
Bit Error Rate
BTS
Base Transceiver Station
PCI
Peripheral Component Interconnect
CS
Circuit Switched (CS) domain
CSD
Circuit Switched Data
DCE
Data communication equipment
DTE
Data terminal equipment
DTR
Data Terminal Ready
EDGE
Enhanced Data rates for GSM Evolution
EFR
Enhanced Full Rate
EGSM
Enhanced GSM
EMC
Electromagnetic Compatibility
ESD
Electrostatic Discharge
FR
Frame Relay
GMSK
Gaussian Minimum Shift Keying
GPIO
General Purpose Input Output
GPRS
General Packet Radio Service
GSM
Global Standard for Mobile Communications
HR
Half Rate
HSDPA
High Speed Downlink Packet Access
U5501_Hardware_User_Guide_V2.3
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HSUPA
High Speed Uplink Packet Access
HSPA
HSPA High-Speed Packet Access
IEC
International Electro-technical Commission
IMEI
International Mobile Equipment Identity
I/O
Input/Output
ISO
International Standards Organization
ITU
International Telecommunications Union
bps
bits per second
LED
Light Emitting Diode
M2M
Machine to machine
MO
Mobile Originated
MT
Mobile Terminated
NTC
Negative Temperature Coefficient
PC
Personal Computer
PCB
Printed Circuit Board
PCS
Personal Cellular System
PCI
Peripheral Component Interconnect
PCM
Pulse Code Modulation
PCS
Personal Communication System
PDU
Packet Data Unit
PPP
Point-to-point protocol
PS
Packet Switched
QPSK
Quadrate Phase Shift Keying
SIM
Subscriber Identity Module
TCP/IP
Transmission Control Protocol/ Internet Protocol
UART
Universal asynchronous receiver-transmitter
USIM
Universal Subscriber Identity Module
UMTS
Universal Mobile Telecommunications System
USB
Universal Serial Bus
WCDMA
Wideband Code Division Multiple Access
U5501_Hardware_User_Guide_V2.3
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2. Introduction
U5501 is a wireless module which is designed for the global market. It is a
consumptive product; it can be designed in many kinds of applications which
can work on HSDPA/UMTS/EDGE/GPRS/GSM network.
U5501 support the Bands as the following:
Dual-Band UMTS（WCDMA/FDD）
：900/2100 MHz；
Quad-Band GSM ：850/900/DCS1800/PCS1900 MHz。
On HSDPA network in the world, U5501 enables connect to the Internet at DL
data speed up to 3.6Mbps. In areas where HSDPA service is not available,
U5501 still enables reliable and secure data connections over UMTS at speed up
to 384 Kbps or EDGE at speed up to 237Kbps or GPRS at speed up to 85.6Kbps.
U5501 provides Audio, SMS, Phonebook functions as well as high speed access.
It can be designed in many kinds of applications. Such as Video monitor, Tablet,
Electric-book, MID, Vehicle equipment, etc.
U5501 integrates the RF and Baseband onto one small PCB. It can fulfill all the
functions of RF signal receiving and transmitting, Baseband signal processing
and audio signal processing so that the customers can realize all kinds of their
own wireless products with very few peripheral components.
Designed on a single-side PCB, U5501 has a tiny dimension of
30.0mm×30.0mm×2.5mm, with a LGA PAD interface, which provides all
hardware interfaces between the module and customers’ boards. The main
hardware interfaces of U5501 consist of power supply interfaces, USB interface,
UART interfaces, USIM/SIM interface, Audio interfaces, PCM interface, ADC
interface, VRTC interface and GPIO.
U5501 is integrated with the TCP/IP protocol, it not only supports standard AT
(Complied with Hayes 3GPP TS 27.007 and 27.005), but also support Longsung
extended AT commands, which are very suited for developing all kinds of the
customized applications.
U5501 provide main interfaces for applications, the interfaces as the
following:
1) Power interface
2) USB interface
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3) UART interface
4) USIM/SIM interface
5) Analog audio interface
6) PCM interface
7) GPIO
8) RESET interface
9) Power on off interface
10) Work status indicator
11) RTC interface
12) Voltage ourput
13) Antenna interface
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2.1. Key features
Table3：Key features of U5501
Feature
Description
3.3V～4.2V（Typical 3.8V）
Power supply
Frequency Bands
HSDPA
UMTS
UMTS: Dual-Band, 900/2100MHz
EDGE/GPRS/GSM: Quad-Band, 850/900/1800/1900MHz
DL:3.6Mbps
UMTS PS: 384 kbps(DL), 384 kbps(UL)
UMTS CS: 64 kbps(DL), 64 kbps(UL)
EDGE: Class12, 236.8kbps(DL), 118kbps(UL)
EDGE
Mobile station class B
Coding schemes: MCS1-9
Data
GPRS: Class12，85.6kbps(DL)，42.8kbps(UL)
GPRS
Mobile station class B
Coding schemes: CS1-4
Support Full PBCCH
CSD
GSM CSD：9.6kbps
Triple-rate codec for HR、FR、EFR
Support AMR
Voice
Support DTMF
Caller identification, Call forwarding, Call holding, Call
waiting and Three party service
Point to point MO、MT
SMS
SMS cell broadcast
Support Text and PDU mode
Normal operation: -20℃~+65℃
Temperature
Restricted Operation: -30℃~+75℃
Storage temperature: -40℃~+85℃
VBAT, GND: Air discharge ±8KV，Contact discharge ±4KV
ESD
RF interface: Air discharge ±8KV，Contact discharge ±4KV
Else ports: Air discharge ±4KV, Contact discharge±2KV
Class 4 (2 W) for GSM850/GSM900
Class 1 (1 W) for GSM1800/GSM1900
Max power RF transition
Class E2 (0.5 W) for EDGE900
Class E2 (0.4 W) for EDGE1800
Class 3 (0.25 W) for UMTS
Power off mode：50μA
Current consumption
Sleep mode：<4mA
Idle mode：<40mA
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Voice mode：<300mA
Data mode：<600mA
Application interface
LGA PAD
Power interface
1 USB2.0 High-Speed interface
1 UART interface
1 USIM/SIM interface（Compatible 3V&1.8V）
2 analog audio compatible
1 PCM interface
1 RESET interface
LGA PAD
2 NETLIGHT ourput interface
2 voltage output(2.6V & 1.8V)
1 power on off interface
1 VRTC
12
GPIOs（2 of them voltage are 1.8V, the others are
2.6V）
2 sleep and wakeup GPIOs
Antenna interface
Dimensions
30.0mm×30.0mm×2. 5mm
Weight
<8g
Fixed structure
Solder with LGA PAD
AT command
Approvals
Standard AT commands (Hayes 3GPP TS 27.007 and 27.005)
Support LongSung Extend AT commands
RoHS
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2.2. Operating modes
Table4：Overview operating modes
Mode
Sleep mode
Function
Set WAKEUP_IN to low, the U5501 will enter to sleep mode, the module
will reduce the current consumption to minimal level.
GSM IDLE
GSM mode
Software is active. Module has registered to the GSM
network, and the module is ready to send and receive.
Connection is going on between two subscribers. In
GSM TALK
this case, the power consumption depends on network
settings.
Module is ready for GPRS data transfer, but no data is
GPRS IDLE
currently
sent
or
received.
Power
consumption
depends on network settings and GPRS configuration
(e.g. multi-slot settings).
GPRS mode
GPRS data transfer in progress. Power consumption
GPRS DATA
depends on network settings (e.g. power control
level),
uplink/downlink
data
rates
and
GPRS
configuration (e.g. used multi-slot settings).
Module is ready for EDGE data transfer, but no data is
EDGE IDLE
currently
sent
or
received.
Power
consumption
depends on network settings and EDGE configuration
(e.g. multi-slot settings).
EDGE mode
EDGE data transfer in progress. Power consumption
EDGE DATA
depends on network settings (e.g. power control
level),
uplink/downlink
data
rates
and
EDGE
configuration (e.g. used multi-slot settings).
Software is active. Module has registered to the
WCDMA IDLE
WCDMA network, and the module is ready to send and
receive.
WCDMA mode
WCDMA TALK
Module is serving in audio. The power consumption
depends on WCDMA network settings.
WCDMA data transfer in progress. Power consumption
WCDMA DATA
depends on network settings (e.g. power control
level),
uplink/downlink
data
rates
and
WCDMA
configuration.
Minimum
VBAT remains applied.
Function mode
Use AT+CFUN=0 to let module go into Minimum Function mode
Power Down
Module will go to power off mode when:
U5501_Hardware_User_Guide_V2.3
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1.
Send AT^SMSO
2.
VBAT to low
3.
Press the POWER_ON_OFF to power off module.
2.3. Hardware functional block diagram
ANT
PA
SW
RF Block
VCTCXO
RF
transceiver
LGA Interface
VBAT
Micphone1
Earphone
Analog
Baseband
Micphone2
Speaker
VRTC
1.8V
2.6V
PCM
UART
NAND FLASH
& SDRAM
Digital
Baseband
RESET
USB
USIM
Netlight
GPIO
Sleep and wakeup
Figure1：U5501 Hardware functional block diagram
☆ RF include:
1) WCDMA Transceiver
2) GSM Transceiver
3) SW
4) VCTCXO
☆ Baseband include:
1) PMU
2) Audio process unit
3) Digital Baseband chip
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4) NAND FLASH and SDRAM
U5501_Hardware_User_Guide_V2.3
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3. Application interfaces description
3.1. 116-pin LGA PAD
Figure2：U5501 116-pin LGA PAD pins sign
U5501_Hardware_User_Guide_V2.3
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Table5：U5501116-pin LGA PAD pin definition
PIN NO.
PIN Name
I/O
Describe
NC
NC
NC
NC
PCM_SYNC
I/O
PCM interface sync(2.6V)
PCM_DIN
PCM I/F data in(2.6V)
PCM_DOUT
PCM I/F data out(2.6V)
PCM_CLK
I/O
PCM interface clock(2.6V)
NC
10
NC
11
WAKEUP_IN
External system wakeup module(2.6V)
12
VBAT
Power supply input(3.3V~4.2V, typical 3.8V/1A
13
VBAT
Power supply input(3.3V~4.2V, typical 3.8V/1A
14
NC
15
GPIO_2.6V
I/O
2.6V
16
NC
17
NC
18
NC
19
NC
20
NC
21
NC
22
NC
23
NC
24
NC
25
NC
26
NC
27
NC
28
GPIO_1.8V
I/O
1.8V
29
GPIO_1.8V
I/O
1.8V
30
NC
31
VCC_EXT_2.6V
2.6V power output(20Ma)
32
VCC_EXT_1.8V
1.8V power output(20mA)
33
NC
34
SIM_VCC
Power supply for SIM card(1.8V/2.85V)
35
VRTC
VRTC input(1.5V~3.25V, typical 3.0V)
36
NC
37
NC
38
MIC2_P
Positive pole of the input of audio interface 2
39
MIC2_N
Negative pole of the input of audio interface 2
U5501_Hardware_User_Guide_V2.3
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PIN NO.
PIN Name
I/O
Describe
40
MIC1_P
Positive pole of the input of audio interface 2
41
MIC1_N
Negative pole of the input of audio interface 2
42
NC
43
GPIO_2.6V
I/O
2.6V
44
GPIO_2.6V
I/O
2.6V
45
GPIO_2.6V
I/O
2.6V
46
GPIO_2.6V
I/O
2.6V
47
NC
48
GND
49
GND
50
GND
51
GPIO_2.6V
I/O
2.6V
52
GND
53
GND
54
GND
55
GPIO_2.6V
I/O
2.6V
56
GND
57
GND
58
GND
59
GND
60
NC
61
NC
62
NC
63
NC
64
NC
65
NC
66
NC
67
NC
68
NC
69
NC
70
SIM_DET
I/O
SIM card insert or remove detect(2.6V)
71
WAKEUP_OUT
Module wakeup the external system(2.6V)
72
NC
73
UART_DSR
UART data set ready(2.6V)
74
UART_RTS
UART ready for receive(2.6V)
75
UART_DCT
UART data carrier detect(2.6V)
76
UART_TX
UART transmit data output(2.6V)
77
UART_RING
UART ring indicator(2.6V)
78
UART_RX
UART receive data input(2.6V)
79
UART_DTR
UART data terminal ready(2.6V)
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PIN NO.
PIN Name
I/O
Describe
80
UART_CTS
UART clear to send(2.6V)
81
POWER_ON_OFF
System power on or power off
82
NC
83
NC
84
NC
85
USB_DM
I/O
USB 2.0 high speed D-
86
USB_DP
I/O
USB 2.0 high speed D+
87
NC
88
SIM_RESET
SIM reset
89
SIM_DATA
I/O
SIM data
90
SIM_CLK
SIM clock
91
LED_STATUS
Status indicator(Drive current: 10mA)
92
NC
93
NC
94
NC
95
NC
96
EAR_OUT_N
Negative pole of the output of earphone
97
EAR_OUT_P
Positive pole of the output of earphone
98
SPKR_OUT_P
Positive pole of the output of speaker
99
SPKR_OUT_N
Negative pole of the output of speaker
100
RESET_N
Reset module(1.8V)
101
LED_MODE
Mode indicator(Drive current: 10mA)
102
NC
103
NC
104
NC
105
GPIO_2.6V
I/O
2.6V
106
GND
107
MAIN_ANT
RF main antenna interface
108
GND
109
GPIO_2.6V
I/O
2.6V
110
GND
111
NC
112
GND
113
GPIO_2.6V
I/O
2.6V
114
GND
115
NC
116
GND
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3.2. Power supply
U5501 power on and power off correlative interfaces as the following:
Table6：U5501 Power supply correlative interfaces
PIN Name
I/O
PIN No.
VBAT
12,13
VRTC
35
1.5~3.25，typical 3.0V
VCC_EXT_1.8V
32
Voltage output，1.8V，20mA
VCC_EXT_2.6V
31
Voltage output，2.6V，20mA
POWER_ON_OFF
81
Power on off control, low active
RESET
100
Reset，1.8V，low active
GND
48~50,52~59,106,108,
110,112,114,116
描述
Power supply ， 3.3V~4.2V ，
typical 3.8V
GND
3.2.1. Power Supply and reference design
3.2.1.1. VBAT input
The power supply of U5501 should be a single voltage source with VBAT ranged
from 3.3V to 4.2V. As a mobile terminal conformed to the HSDPA/UTMS/GSM
criterions, in some case, the ripple in a transmit burst may cause a maximum
voltage drop of 450mV while the current consumption will rise to the typical
peak of 2A. So the power supply must be able to provide sufficient current.
The capacitor must be a larger one electrolytic
capacity (recommend
2200uF/10V) or two smaller dimension tantalum capacities (470uF/6.3V) in
parallel (CA) is recommended. And with a small (0.1 µF to 1µF) ceramic (CB) in
parallel; the capacitors should put as close as possible to the U5501 VBAT pins.
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VBAT
CA
CB
Figure3：U5501 Power supply VBAT input
3.2.1.2. VRTC input
The PIN35 is VRTC interface.
VRTC can be used for connecting backup rechargeable battery. When VBAT
power supply is not available, the battery supplies the power to RTC core of
U5501. When VBAT is available, U5501 can recharge the battery via VRTC pin.
If the RTC is useless for you, you can set PIN51 as NC.
Reference design as the following:
Figure4：VRTC connect to rechargeable battery
If use non-rechargeable battery, the reference design as the following:
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Non-rechargeable battery
Module
VRTC
RTC Core
Figure5：VRTC connect to non-rechargeable battery
If use a large capacitance capacity, the reference design as the following:
Figure6：VRTC connect to large capacitance capacity
3.2.1.3. VOUT voltage output
During U5501 working, 2.6V voltage will output through PIN31 and 1.8V voltage
will output through PIN32, which named VCC_EXT_2.6V and VCC_EXT_1.8V.
The current is rated for 20mA. They can be used as a power supply of the
external device, such as LCD. And you can read the level of VCC_EXT_2.6V to
judge whether the module is working.
3.2.1.4. POWER_ON_OFF input
The POWER_ON_OFF (PIN81) is used to control U5501 power on and power off.
—
—
When module is power off, pull down POWER_ON_OFF for at least 0.5s, the
module is powered on;
When module is power on, pull down POWER_ON_OFF for at least 2.5s
again, the module is powered off.
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The reference circuit is shown as follow， the AP_PWR_CTRL is the control signal
from the application side.
POWER_ON_OFF
81
Module
AP_PWR_CTRL
Ton
Figure7：POWER_ON_OFF reference circuit
3.2.1.5. RESET_N input
The RESET (PIN100) can control U5501 module to reset. The RESET is active by
low level.
—
A low level pulse with 100mS will be used when set module reset.
The part of RESET reference design as the Figure11. AP_RESET is the control
signal from the application.
Figure8：RESET control module reset
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3.2.2. Power on/off time sequence
3.2.2.1. Power on time sequence
Insure that the power supply of U5501 VBAT is active (3.3V~4.2V, typical
3.8V).The POWER_ON_OFF must be controlled.
Figure9：power on time sequence
3.2.2.2. Normal power off time seqence
U5501 support press POWER_ON_OFF and send AT command to power on.
—
—
When module is power on, pull down POWER_ON_OFF for at least 2.5s, the
module is powered off;
When module is power on, send AT^SMSO, the module is powered off.
Power off time sequence is as follow:
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Figure10：U5501 power off time sequence
3.2.2.3. Low power to power off
When the power supply of U5501 VBAT is below 3.3V (include VBAT is off), the
module will be power off.
Note: In this case, the module don`t logout from the BS.
3.2.3. Reset time sequence
Control RESET_N (RESET) to set U5501 reset. The RESET_N is active by low
level. The RESET_N signal must be a Tst (100mS) low pulse. Send AT+RESET
can reset the U5501 too.
Figure11：U5501 RESET time sequence
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3.3. USB interface
3.3.1. USB interface description
U5501 module supports a USB2.0 High-Speed interface. U5501 default PID is
0X9603. When the USB drivers of U5501 are installed, the OS will detect 3
virtual serial ports: Modem port, Diagnostic port and AT port.
Table7：U5501 USB interface
PIN Name
I/O
PIN No.
描述
USB_DM
I/O
85
USB data-
USB_DP
I/O
86
USB data+
48~50,52~59,106,108,
GND
110,112,114,116
GND
3.3.2. USB reference circuit
The USB part reference design circuit is as follow
Module
USBBF
ESD
ESD
Figure12：U5501 USB reference circuit
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1) To get the reliable USB power supply, it is recommended to use a 10uF (C1)
filter capacitor and a 33pF (C2) filter capacitor. DC rated voltage of the
capacitors should be above 10V;
2) To reduce the reflection caused by the high frequency alternating signal in
the transmission, it is recommended to add a resistor with value below 10Ω
to the DM and DP in USB interface to ensure correct transmission for USB
data. Just like the resistors R1 and R2;
3) To avoid static electricity in USB interface, it is recommended to use the ESD
protection device. Junction capacitance of the ESD component should be
less than 5pF;
4) To get the reliable USB data transfer, need protect the USB device. Such as
must protect the USB_DP, USB_DM, need 90Ω impedance control, and let
them keep away from the interference signal.
3.3.3. USB driver
U5501 module support many kinds of OS, such as: Windows 2000, Windows XP,
Windows Vista32/64, Windows 7, Windows CE5.0/6.0, Windows Mobile5.0/6.0.
When use these systems, need special drivers for U5501.
For different OS and VID and PID, the drivers are different. If need them, please
contact with FAE of LongSung. The default VID and PID is: VID_1C9E &
PID_9603.
For Linux OS, such as Radhat, Ubuntu and Android, need the OS itself USB
driver usbserial.ko. You need load the driver usbserial.ko and PID, VID to the
system.
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3.3.3.1. Linux OS load USB driver for U5501
Make sure there is usbserial.ko driver in your Linux system. Linux2.4.X and
Linux2.6.X OS have usbserial.ko, but for some Ubuntu editions must recompile
the kernel to get the usbserial.ko.
The following is in PC Linux2.6.X OS load driver process. (Note: Embed Linux
OS may have some difference)
1) Please insert U5501 to the AP with Linux system by USB. And make sure the
power supply for U5501 is active and steady and can power on U5501;
2) Preparation of lookup USB devices by Linux usbfs filesystem, mount the
USB filesystem, type the command like this:
#mount -t usbfs none /proc/bus/usb
3) Check the status of AP device, in order to make sure AP is ready, we can
type command like this:
#cat /proc/bus/usb/devices
Then we will get the result as the following:
T:
Bus=03 Lev=01 Prnt=01 Port=00 Cnt=01 Dev#=9 Spd=12 MxCh= 0
D:
Ver= 1.10 Cls=00(>ifc ) Sub=00 Prot=00 MxPS=64 #Cfgs=
P: Vendor=1c9e ProdID=9603 Rev= 0.00
S:
Manufacturer=Qualcomm, Incorporated
S:
Product=Qualcomm CDMA Technologies MSM
C:* #Ifs= 5 Cfg#= 1 Atr=a0 MxPwr=500mA
I:* If#= 0 Alt= 0 #EPs= 3 Cls=ff(vend.) Sub=ff Prot=ff Driver=(none)
E: Ad=81(I) Atr=03(Int.) MxPS= 16 Ivl=128ms
E: Ad=82(I) Atr=02(Bulk) MxPS= 64 Ivl=0ms
E:
Ad=02(O) Atr=02(Bulk) MxPS=
64 Ivl=0ms
I:* If#= 1 Alt= 0 #EPs= 2 Cls=ff(vend.) Sub=ff Prot=ff Driver=(none)
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E: Ad=84(I) Atr=02(Bulk) MxPS= 64 Ivl=0ms
E:
Ad=04(O) Atr=02(Bulk) MxPS=
64 Ivl=0ms
I:* If#= 2 Alt= 0 #EPs= 2 Cls=ff(vend.) Sub=ff Prot=ff Driver=(none)
E: Ad=86(I) Atr=02(Bulk) MxPS= 64 Ivl=0ms
E:
Ad=06(O) Atr=02(Bulk) MxPS=
64 Ivl=0ms
If the USB device is ready, we can see the red characters listed above. From
it, the vendor ID and product ID is 1c9e and 9603. Like Vendor=1c9e
ProdID=9603 Rev= 0.00.
Also, we can see three serial ports displayed by blue characters. They are
diagnostic port, AT port and modem port (The ports from the top to the
bottom should be like this: DIAG, AT, MODEM).
4) Install USB drivers in AP, type command like this:
＃modprobe usbserial vendor=0x1c9e product=0x9603
5) Check the status of device driver, type command like this:
#cat /proc/bus/usb/devices
You my get the result as the following:
T:
Bus=03 Lev=01 Prnt=01 Port=00 Cnt=01 Dev#=3 Spd=12 MxCh= 0
D:
Ver= 1.10 Cls=00(>ifc ) Sub=00 Prot=00 MxPS=64 #Cfgs=1
P: Vendor=1c9e ProdID=9603 Rev= 0.00
S:
Manufacturer=Qualcomm, Incorporated
S:
Product=Qualcomm CDMA Technologies MSM
C:* #Ifs= 5 Cfg#= 1 Atr=a0 MxPwr=500mA
I:* If#= 0 Alt= 0 #EPs= 3 Cls=ff(vend.) Sub=ff Prot=ff Driver=usbserial_generic
E: Ad=81(I) Atr=03(Int.) MxPS= 16 Ivl=128ms
E: Ad=82(I) Atr=02(Bulk) MxPS= 64 Ivl=0ms
E:
Ad=02(O) Atr=02(Bulk) MxPS=
64 Ivl=0ms
I:* If#= 1 Alt= 0 #EPs= 2 Cls=ff(vend.) Sub=ff Prot=ff Driver=usbserial_generic
E: Ad=84(I) Atr=02(Bulk) MxPS= 64 Ivl=0ms
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E:
Ad=04(O) Atr=02(Bulk) MxPS=
64 Ivl=0ms
I:* If#= 2 Alt= 0 #EPs= 2 Cls=ff(vend.) Sub=ff Prot=ff Driver=usbserial_generic
E: Ad=86(I) Atr=02(Bulk) MxPS= 64 Ivl=0ms
E:
Ad=06(O) Atr=02(Bulk) MxPS=
64 Ivl=0ms
If the driver is ready, we can see the usbserial_generic on the right side of
each port.
6) Check the device point in the /dev filesystem:
#cd /dev
# ls ttyUSB*
If the AP driver is OK, there should be ttyUSB0~ ttyUSB2.
3.3.3.2. Linux OS AP use AT to control U5501
1) Please insert the USIM/SIM card into the application terminal, make sure
the USIM/SIM card with Data service already been permitted. Plug the
WCDMA/GSM antenna to RF connector of U5501. Power on the module
U5501, load the USB driver, create USB end ports: ttyUSB0~ ttyUSB2.
2) Run minicom application in Linux OS:
#minicom –s
In the menu of minicom select “Serial port setup”, set “Serial device ” as
/dev/ttyUSB1 (Note: AT(ttyUSB1), Modem(ttyUSB2) can response AT
commands, Diag (ttyUSB0) can not response AT commands); Then
back to the menu of minicom and select “Save setup as df1 ”, save the
configuration, then select
“exit ” to exit minicom.
3) Send AT commands by minicom
#minicom
It should prompt as the following:
Welcome to minicom 2.3 OPTIONS: I18n
Compiled on Feb 24 2008, 16:35:15. Port /dev/ttyUSB1
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Press CTRL-A Z for help on special keys
Input AT command to open the echo of AT:
ATE
IF the system is running normally, it should prompt as the following:
OK
Input AT command to get the version of firmware:
AT+LCTSW
Will get the following response:
SoftwareVersion: LQA0082.2.3_MG24
InnerVersion: LQA0082_240085_6.0.8W1215_EFS1.5
OK
Input AT command to get the strength and BER:
AT+CSQ
Will get the following response:
+CSQ: 20,74
OK
Input AT command to get the status of registration:
AT+CREG?
Will get the following response:
+CREG: 0,1
OK
Input AT command to get the information operator:
AT+COPS?
Will get the following response:
+COPS: 0,0,"CHN-CUGSM",2
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OK
3.3.3.3. Linux OS AP dial PPP connection
1) Repeat loading USB driver and AT communication with U5501. Make
sure U5501 get the normal registration, and the strength of RF signal
will be stronger than 13 (The first parameter of CSQ).
2) Make sure the Linux OS has pppd application, if it hasn’t pppd
application, please install kppp, you will get pppd in your OS.
3) Create a new file: /etc/ppp/chat/gprs-connect-chat
Then add messages as the following:
TIMEOUT
15
ABORT
"DELAYED"
ABORT
"BUSY"
ABORT
"ERROR"
ABORT
"NO DIALTONE"
ABORT
"NO CARRIER"
TIMEOUT
40
''
\rAT
OK
ATS0=0
OK
ATE0V1
OK
AT+CGDCONT=1,"IP","3GNET"
OK
ATDT*99***1#
CONNECT
Note:
''
Different
application
USIM/SIM
terminal,
card
which
you
insert
AT+CGDCONT=1,"IP","3GNET"
in
the
will
be
different. Please contact the operator to get the APN and replace
the parameter "3GNET".
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4) Modify the configuration of pppd: /etc/ppp/options
If you find the “auth”, modify it as “#auth”. The result is there aren’t ID
verification.
5) Create a new file: /etc/ppp/peer/gprs
Add messages as the following: (The end port must be ttyUSB2):
# Usage: root>pppd call gprs
/dev/ttyUSB2
9600
crtscts
modem
#noauth
debug
nodetach
#hide-password
usepeerdns
noipdefault
defaultroute
user "3gnet"
0.0.0.0:0.0.0.0
ipcp-accept-local
ipcp-accept-remote
#lcp-echo-failure
12
#lcp-echo-interval 3
#noccp
#novj
#novjccomp
#persist
connect '/usr/sbin/chat -s -v -f /etc/ppp/chat/gprs-connect-chat'
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6) Connect to the Internet:
#pppd call gprs
# ifconfig
If you get the ppp0 net port means that PPP is successful.
eth0 Link encap:Ethernet
inet addr:172.16.180.105
HWaddr 00:1D:09:33:A7:E1
Bcast:172.16.180.255 Mask:255.255.255.0 inet6
addr: fe80::21d:9ff:fe33:a7e1/64 Scope:Link
MULTICAST MTU:1500 Metric:1
overruns:0 frame:0
UP BROADCAST RUNNING
RX packets:39793 errors:0 dropped:0
TX packets:17971 errors:0 dropped:0 overruns:0 carrier:0
collisions:0 txqueuelen:1000 RX bytes:3445057 (3.2 MiB) TX bytes:20088925
(19.1 MiB)
Interrupt:169 lo Link encap:Local Loopback inet addr:127.0.0.1
Mask:255.0.0.0
inet6 addr: ::1/128 Scope:Host
UP LOOPBACK RUNNING
MTU:16436 Metric:1 RX packets:20 errors:0 dropped:0 overruns:0 frame:0
packets:20 errors:0 dropped:0 overruns:0 carrier:0
TX
collisions:0 txqueuelen:0
RX bytes:1160 (1.1 KiB) TX bytes:1160 (1.1 KiB)
ppp0 Link encap:Point-to-Point Protocol inet addr:10.182.207.113
P-t-P:10.64.64.64 Mask:255.255.255.255 UP POINTOPOINT RUNNING NOARP
MULTICAST MTU:1500 Metric:1 RX packets:5 errors:0 dropped:0 overruns:0
frame:0
TX packets:6 errors:0 dropped:0 overruns:0 carrier:0
txqueuelen:3
RX bytes:62 (62.0 b)
collisions:0
TX bytes:101 (101.0 b)
7) Testing the Internet
# ping 119.75.217.56
It is the IP address of www.baidu.com. If the ping fails, we need add a
route like this:
#route add default gw 10.64.64.64
Note: 10.64.64.64 is the ISP address as the red character above.
# ping www.baidu.com
If ping www.baidu.com fails, we should add DNS to the /etc/resolv.conf
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8) Disconnect the internet
# killall pppd
3.4. UART interface
U5501 module provides a UART interface. Which can be used for AT interactive
and data transfer.
3.4.1. UART interface description
Table8：U5501 UART 接口
PIN Name
I/O
PIN No.
描述
UART_DSR
73
UART data set ready(2.6V)
UART_RTS
74
UART ready for receive(2.6V)
UART_DCT
75
UART data carrier detect(2.6V)
UART_TX
76
UART transmit data output(2.6V)
UART_RING
77
UART ring indicator(2.6V)
UART_RX
78
UART receive data input(2.6V)
UART_DTR
79
UART data terminal ready(2.6V)
UART_CTS
80
UART clear to send(2.6V)
GND
48~50,52~59,106,108,
110,112,114,116
地
3.4.2. UART interface reference circuit
For an application system, U5501 uses as DCE (Data Communication Equipment)
and application terminal uses as DTE (Data terminal equipment). The reference
circuit is as follow:
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Figure13：U5501 UART connection
3.4.3. UART interface description
1)
2)
3)
4)
5)
6)
7)
Full-duplex;
7-bit or 8-bit data;
1-bit or 2-bit stop bit;
Odd parity check, even parity check or non-check;
Direct memory access(DMA) transmission;
Baud rate ranging from 600bps to 230400bps(115200bps by default);
Self-adapted baud rate ranging from 1200bps to 115200bps.
3.5. U5501 sleep and wakeup control
In order to describe easily, it is named U5501 as BP and the MCU of application
terminal as AP.
Sleep and wakeup interface is described in the table as follow:
Table9：U5501 sleep and wakeup interface
PIN Name
I/O
PIN No.
WAKEUP_IN
11
描述
H: DTE wakeup U5501;
L: DTE set U5501 to sleep mode.
H: Module is in wakeup mode and module serial/USB
WAKEUP_OUT
71
is available;
L: Module is in sleep mode and serial/USB is not
available.
GND
48~50,52~59,106,108,
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GND
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110,112,114,116
3.6. Analog audio interface
U5501 provide 2 channels analog audio interface.
3.6.1. Analog audio interface description
The audio signals are shown in as follow:
Table10：U5501 analog audio interface description
PIN Name
I/O
PIN No.
描述
MIC2_P
38
Positive pole of the input of audio interface 2
MIC2_N
39
Negative pole of the input of audio interface 2
MIC1_P
40
Positive pole of the input of audio interface 2
MIC1_N
41
Negative pole of the input of audio interface 2
EAR_OUT_N
96
Negative pole of the output of earphone
EAR_OUT_P
97
Positive pole of the output of earphone
SPKR_OUT_P
98
Positive pole of the output of speaker
SPKR_OUT_N
99
Negative pole of the output of speaker
3.6.2. Hands-free channel
The second audio channel can be used for the hands-free without requiring any
audio amplifier. The output pins are configured differently, with a rated output of
500mW into an 8 Ω speaker. Considerable current flows between the audio
output pins and the speaker, and thus wide PCB traces are recommended 20
mils.
Table11：U5501 second channel audio
PIN Name
PIN No.
Hands-free
Description
SPKR_OUT_P
98
SPK_P
Loudspeaker output differential signal +
SPKR_OUT_N
99
SPK_N
Loudspeaker output differential signal -
MIC2_P
38
MIC_P
Audio input channel 2 differential signal +
MIC2_N
39
MIC_N
Audio input channel 2 differential signal -
3.6.3. Handset channel
The first audio channel can be used for the handset without requiring any audio
amplifier. The output power for the differential ear output is typically 350 mW
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for a full-scale +3 dBm sine wave into a 32-ohm speaker.
Table12：U5501 first channel audio
PIN Name
PIN No.
Handset
Description
EAR_OUT_N
96
EAR_N
Audio output channel 1 differential signal -
EAR_OUT_P
97
EAR_P
Audio output channel 1 differential signal +
MIC1_P
40
MIC_P
Audio input channel 1 differential signal +
MIC1_N
41
MIC_N
Audio input channel 1 differential signal -
3.6.4. Analog audio reference circuit
The U5501 analog audio reference circuit is shown as follow:
Close to Speaker
Differential Layout
BEAD
1nF
BEAD
1nF
10pF
33pF
10pF
33pF
10pF
33pF
ESD
ESD
Module
EAR_P/SPK_P
EAR_N/SPK_N
MIC1_P/MIC2_P
MIC1_N/MIC2_N
Close to MIC
10pF
33pF
10pF
33pF
10pF
33pF
ESD
ESD
Differential Layout
Figure14：U5501 analog audio reference circuit
1) The audio output signals, a pair of differential signals, output to two
speakers. The output signals are not real stereo signals which are different
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from traditional stereo sound.
2) It is recommended to use the filter capacitor or filter circuit to reduce inter
frequency interference and improve audio quality. Just like what is shown in
the figure above.
3) To avoid static electricity, it is recommended to use the ESD protection
device.
4) It requires connecting audio analog signal ground with the general digital
circuit ground, magnetic bead or zero ohm resistance can be used.
5) IF use an audio amplifier for speaker, optional EMI filtering is shown at
Fogure14, these components (two ferrite beads and two capacitors) can be
added to reduce electromagnetic interference. If used, they should be
located near the EAR_P and EAR_N.
6) Considerable current between the audio output pins and the speaker, the
width of PCB traces are recommended 20mils.
3.7. PCM interface
U5501 module provides a PCM interface. The PCM include 4 pin digital signals.
Use PCM interface can support communication between U5501 and external
CODEC.
PCM TX data will be routed from the external codec MIC through the DSP encode
path in the U5501 module. PCM RX data will be routed through the DSP decode
path to the external codec speaker.
The base band of U5501 can be used in two modes:
1) Auxiliary PCM, the auxiliary PCM that runs at 128 kHz and uses a 62.5 μs
sync pulse (half a time frame).
2) Primary PCM, the primary PCM that runs at 2.048 MHz and uses 488 ns sync
pulse (one 2.048 MHz clock tick).
Table13：Auxiliary PCM and Primary PCM configuration
Configuration
SYNC
CLK
Clock source
Format
Auxiliary
8KHz
128KHz
Master
8Bits μ-law,
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Primary
8KHz
2.048MHz
Master/Slave
8Bits A-law,
16Bits Linear (13 bits
are valid, the others
are blank)
The default configuration of U5501 is Primary PCM, and can use AT command to
select Master Mode or Slave Mode.
In Slave mode, the external codec drives the clock and sync signals that are
sent to the U5501 module.
U5501 module supports 3 PCM formats: 8Bits μ-law, 8Bits A-law, 16Bits
(Linear).
3.7.1. PCM interface description
Table14：U5501 PCM interface
PIN Name
I/O
PIN No.
Description
PCM_SYNC
PCM Synchronous Signal
PCM_CLK
PCM CLK
PCM_DIN
PCM Input
PCM_DOUT
PCM Output
3.7.2. Auxiliary PCM
The Auxiliary PCM interface enables communication with an external codec to
support hands-free applications. The auxiliary codec port operates with
standard long-sync time sequence and a 128 kHz clock. The AUX_PCM_SYNC
runs at 8 kHz with a 50% duty cycle. Most μ-law and A-law codecs support the
128 kHz AUX_PCM_CLK bit clock.
Figure15：AUX_PCM_SYNC time sequence
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Figure16：AUX_PCM_CODEC to U5501 time sequence
Figure17：U5501 to AUX_PCM_CODEC time sequence
Table15：AUX_CODEC time sequence parameters
U5501_Hardware_User_Guide_V2.3
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3.7.3. Primary PCM
U5501 module firmware default configuration is Primary PCM. PRIM_PCM_CLK
is 2.048 MHz clock, PRIM_PCM_SYNC is 8 kHz (488nS), and μ-law PCM format.
Figure18：PRIM_PCM_SYNC time sequence
Figure19：PRIM_PCM_CODEC to U5501 time sequence
Figure20：U5501 to PRIM_PCM_CODEC time sequence
U5501_Hardware_User_Guide_V2.3
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Table16：PRIM_CODEC time sequence parameters
3.8. USIM/SIM interface
U5501 module supports HSPA/UTMS mode USIM card and GSM/GPRS/EDGE
mode SIM card.
3.8.1. USIM/SIM interface description
U5501 module supports 1.8/3.0V USIM/SIM card.
Table17：U5501 USIM/SIM 接口
PIN Name
I/O
PIN No.
Description
SIM_DATA
I/O
89
USIM/SIM DATA
SIM_CLK
90
Clock Signal
SIM_RESET
88
RESET Signal
SIM_VCC
34
USIM/SIM Power
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SIM_DET
GND
70
48~50,52~59,106,108,
110,112,114,116
USIM/SIM detect
地
3.8.2. USIM/SIM interface reference circuit
For 6-pin USIM/SIM card, we recommend to use the Amphenol C707 10M006
512 2 SIM Holder. For more information, you can visit the Amphenlo company
web: http://www.amphenol.com/
The SPEC of C707 10M006 512 2 SIM Holder is as follow.
U5501_Hardware_User_Guide_V2.3
Page 46 of 59
Figure21：The SPEC of C707 10M006 512 2 SIM Holder
USIM/SIM interface reference design circuit as follow.
U5501_Hardware_User_Guide_V2.3
Page 47 of 59
3.3V
100nF
33pF
33pF
10K
22
SIM_DET
Module
SIM_VCC
22
SIM_RESET
22
SIM_DATA
SIM_CLK
15K
ESD
ESD
ESD
ESD
2 GND
3 VPP
IO
DET 6
VCC
RST 4
CLK
Figure22：U5501 USIM/SIM interface reference circuit
1) The USIM_DATA line of USIM is connected to USIM_VCC by a pull-up
resistor with reference value 10KΩ;
2) To avoid the instantaneous voltage overflowing, the resistor with reference
value 22Ω can be used for the USIM_DATA, USIM_CLK and USIM_RESET
line;
3) To avoid the static electricity in USIM socket, it is recommended to use the
ESD protection device for the USIM_DATA, USIM_CLK and USIM_VCC line;
4) To get more flat USIM power supply, it is recommended to use the filter
capacitors, and reference value 33pF and 100nF;
5) To eliminate the peak interference and high frequency interference signal on
USIM_RESET line, the filter capacities can be placed in USIM_RESET line,
the reference value is 33pF;
6) SIM_DET is the USIM/SIM insert or remove detector.
3.9. Status indicator interface
The U5501 provide 2 status indicators, which are PIN91 and PIN101.
3.9.1. Status indicator description
The U5501 status indicator is decribed as follow.
U5501_Hardware_User_Guide_V2.3
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Table18：U5501 status indicator description
PIN Name
I/O
PIN No.
Description
LED_STATUS
91
Status indicator
LED_MODE
101
Status indicator
Status indicator is described as follow.
Table19：U5501 status indicator description
Status
LED_STATUS
Registered in 3G
network
3G network data
transferring
Download
firmware
Searching
network
Registered in 2G
network
2G network data
transferring
LED_MODE
The indicator blinks once
each
time(100ms
Light off
On/2900ms Off)
Light on
Light off
Light off
The
indicator
blinks
fast
(100ms
On/100ms Off)
The indicator blinks twice each time
Light off
（
100ms
On/100ms
Off/100ms
On/2700ms Off）
Light off
Light off
The
indicator
blinks
once
(100ms On/2900ms Off)
Light on
3.9.2. Status indicator reference circuit
The status indicator reference circuit is shown as follow:
Figure23：U5501 status indicator reference circuit
IF *R+VF = VBAT
VF: LED Forward Voltage
U5501_Hardware_User_Guide_V2.3
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each
time
IF: LED Forward current
3.10. GPIO
U5501 provide several GPIOs.
Table20：U5501 GPIOs
PIN Name
I/O
PIN NO.
Description
GPIO_2.6V
I/O
15
2.6V voltage level
GPIO_1.8V
I/O
28
1.8V voltage level
GPIO_1.8V
I/O
29
1.8V voltage level
GPIO_2.6V
I/O
43
2.6V voltage level
GPIO_2.6V
I/O
44
2.6V voltage level
GPIO_2.6V
I/O
45
2.6V voltage level
GPIO_2.6V
I/O
46
2.6V voltage level
GPIO_2.6V
I/O
51
2.6V voltage level
GPIO_2.6V
I/O
55
2.6V voltage level
GPIO_2.6V
I/O
105
2.6V voltage level
GPIO_2.6V
I/O
109
2.6V voltage level
GPIO_2.6V
I/O
113
2.6V voltage level
3.11. Antenna interface
PIN107 is the antenna pad.
Table21：U5501 antenna interface
PIN Name
ANT
GND
I/O
PIN No.
Description
107
Antenna
48~50,52~59,106,108,
110,112,114,116
GND
There are two types antenna reference design with the U5501, one is the solder
antenna, the other is use the antenna connector. We recommend to layout with
microstrip line in both of the two types.
3.11.1. Solder antenna
The reference circuit of solder antenna is shown as follow:
U5501_Hardware_User_Guide_V2.3
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Module
TP2
GND
3.0×3.0mm
GND
TP1
L1
0R
2.0×2.0mm
27pF
C1
C3
NA
C2
NA
ANT
GND
GND
Close to TP1
Figure24：U5501 solder antenna reference circuit
The matters need attention about the U5501 solder antenna are as follow:
1) PI type matching filter(L1, C2, C3) must close to the TP1, and separate the
GND pad(TP2) from the TP1 0.7mm at least;
2) Control the microstrip line impedance to 50ohm;
3) Keepout: We recommend the trace width 1.2mm in top layer, and separate
the other trace from 1.2mm, there need not keepout in bottom layer.
3.11.2. RF connector
The reference circuit of the U5501 use the RF connector is as follow:
Figure25：U5501 RF connector reference circuit
We recommend the antenna connector(J1) type is MM9329-2700RA1 which
provided by MURATA.
The matters need attention of the U5501 antenna connector are as follow:
U5501_Hardware_User_Guide_V2.3
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1) PI type matching filter(L1, C2, C3) must close to the TP1, and separate the
GND pad(TP2) from the TP1 0.7mm at least;
2) Control the microstrip line impedance to 50ohm;
3) Keepout: We recommend the trace width 1.2mm in top layer, and separate
the other trace from 1.2mm, there need not keepout in bottom layer.
3.11.2.1. RF cable
When you use RF Connector, please select the RF cable carefully; it is required
to use RF cable of which the insertion loss should comply with:
GSM900/GSM850<1dB
DCS1800/PCS1900<1.5dB
WCDMA2100<1.5dB
WCDMA900<1dB
We recommend use the MXTK88TK200 which provided by MURATA.
3.11.3. U5501 RF output power
The RF output power of U5501 is shown as follow:
Table22：U5501 RF output power
Band
Max
Min
GSM850
33dBm ± 1dB
5dBm ± 5dB
E-GSM900
33dBm ± 1dB
5dBm ± 5dB
DCS1800
29dBm ± 1dB
0dBm ± 5dB
PCS1900
29dBm ± 1dB
0dBm ± 5dB
WCDMA2100
24dBm +1/-3dB
-56dBm ± 9dB
WCDMA900
24dBm +1/-3dB
-56dBm ± 9dB
3.11.4. U5501 RF receiver sensitivity
Table23：U5501 RF receiver sensitivity
Band
Receive sensitivity
GSM850
<-106dBm
E-GSM900
<-106dBm
DCS1800
<-106dBm
PCS1900
<-106dBm
WCDMA2100
<-108dBm
U5501_Hardware_User_Guide_V2.3
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Band
Receive sensitivity
WCDMA900
<-106dBm
3.11.5. U5501 operating frequencies
Table24：U5501 operating frequencies
Band
Receive
Transmit
GSM850
869~894MHz
824~849MHz
E-GSM900
925~960MHz
880~915MHz
DCS1800
1805~1880MHz
1710~1785MHz
PCS1900
1930~1990MHz
1850~1910MHz
WCDMA2100
2110~2170MHz
1920~1980MHz
WCDMA900
880~915MHz
925~960MHz
3.11.6. Antenna parameters requirement
Table25：U5501 antenna parameters requirement
TRP
TIS
(dBm)
(dBm)
GSM850
28
<-102
EGSM900
28
<-102
<1.6
25
<-102
W/Kg
25
<-102
WCDMA900
18
<-102
WCDMA2100
18
<-104
Band
DCS1800
PCS1900
VSWR
<2.5:1
Gain
Peak
>0dBi
U5501_Hardware_User_Guide_V2.3
Avg.
>-4dBi
Efficiency
>40%
SAR
Page 53 of 59
4. Mechanics
4.1. The view of U5501
Figure26：The view of U5501
4.2. 3D stack
If you need the 3D stack of U5501, please contact us to obtain it.
U5501_Hardware_User_Guide_V2.3
Page 54 of 59
4.3. 2D mechanical dimensions
Figure27：U5501 2D mechanical dimensions
4.4. Application side library of U5501
The library which includes schematic decal and PCB decal. Please contact us to
obtain them.
U5501_Hardware_User_Guide_V2.3
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5. Power consumption
U5501 current consumption (VBAT Power supply: DC3.8V) is shown as follow.
Table26：U5501 max current consumption in some mode
Sleep 模式状态下耗流
工作频段
GSM850
GSM900
DCS1800
PCS1900
W2100
W900
配置
平均值(mA）
3.2
2.1
1.5
3.1
1.9
1.5
3.1
1.8
1.5
2.9
1.4
3.9
2.4
0.8
3.9
2.7
0.8
U5501_Hardware_User_Guide_V2.3
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6. Electrical characteristics
6.1. Absolute maximum power ratings
Absolute maximum power ratings for power supply and the voltage on digital
and analog pins of U5501 module are listed as follow. Out of the range, the
module should be damaged.
Table27：Absolute maximum power ratings
Parameter
Description
Min
Typ
Max
Unit
U5501 power supply
-0.5
3.8
4.2
RMS average current
0.9
400
mV
3.0
0.25
Voltage
VBAT
drop
during
transmit burst, IVBAT peak
current may up to 2A (Per
4.6ms)
GPIO
Digital IO voltage
-0.3
Voltage in power off mode
-0.25
2.6
6.2. Operating temperatures
U5501 module can normal operate in the environment temperature in
-20~+65℃.
If you will use it in the environment which out of the range, we recommend
customer has some method to control the temperature around U5501 module.
In the restricted operation temperature, some RF parameter may out of the
3GPP RF standard. The module can work, such as voice, SMS, data.
In the storage temperature, the module may be not able to work, just for
storage. The temperature out of the range, the U5501 module should be
damaged.
Table28：U5501 module operating temperature
Temperature
Min
Typ
Max
Unit
Normal
-20
25
65
℃
operation
temperature
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Restricted operation
-30 ~ -20
65 ~ 75
℃
-40
85
℃
temperature
Storage
temperature
6.3. Interface operating status
VL：logistic low level;
VH：logistic high level.
Table29：Digital Signal DC Characteristics
Signal
VL
VH
Unit
Min
Max
Min
Max
Input
-0.3
0.3*Vpin_min
0.3*Vpin_max
Vpin_max
Output
GND
0.2
Vpin_min-0.2
Vpin
Note：Vpin_min=2.25V, Vpin_max=3.0V (Vpin is the digital interface high level，Vpin=2.6V)
Table30：U5501 power supply range
Parameter
I/O
Min
Typ
Max
Unit
VBAT
3.3
3.8
4.2
SIM_VCC
1.7/2.75
1.8/2.85
1.9/2.95
6.4. Reliability
Table31：Requirements on the environment reliability
Test case
Low temperature
Storage test
High temperature
Storage test
Test requirement
-40℃±3℃, power off mode storage 24 hours
+85℃±3℃, power off mode storage 24 hours
Temperature
In power off mode, between -40℃ and +85℃, stay 0.5h, change time
change test
<3min, total 24 times
High temperature
high humidity test
Low temperature
operating
High temperature
Temperature: +85℃±3℃
Humidity: 90~95%RH
Power off mode storage 24 hours
-20℃±3℃, keep operating for 24 hours
+65℃±3℃, keep operating for 24 hours
U5501_Hardware_User_Guide_V2.3
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Test case
Test requirement
operating
Vibration test requirement:
Vibration test
Connector Life Test
Frequency
Random Vibration ASD
5~20Hz
0.96m2/s3
20~500Hz
0.96m2/s3(20Hz), else -3dB/times frequency
Board-to-board connector plug 50 times; RF connector plug 30 times
1, When module in voice mode, discharge antenna port, VBAT PAD and
GND, ESD must meet the following targets:
ESD test
1)
Contact discharge pass: ±2KV、±4KV test class
2)
Air discharge pass: ±2KV、±4KV、±8KV test class
2, When module in voice mode, discharge SIM card hold of EVB, ESD must
meet the following targets:
1)
Contact discharge pass: ±2KV test class
2)
Air discharge pass: ±2KV、±4KV test class
6.5. Electrostatic discharge
U5501 module is a consumptive product. Although the module has some ESD
protect function, we recommend in application need more ESD protect means to
avoid the static electricity from the application environment, please reference to
the interface reference design circuit.
In order to improve the antistatic performance of the system, we recommend
customer is advised of the following main board: layout an exposed copper
under the module U5501, U5501 shield frame solder feet welded to the
customer board. The solder feet, copper, solder feet and GND are connected.
The ESD capacity of U5501 is listed as follow.
Table32：The ESD endure status measured table
(Temperature: 25℃, Humidity: 45%)
Part
Air discharge
Contact discharge
VBAT,GND
±8KV
±4KV
Antenna port
±8KV
±4KV
Other port
±4KV
±2KV
U5501_Hardware_User_Guide_V2.3
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