Sony FF031021 GSM/GPRS 850/1800/1900 Module User Manual

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Confidential
USERS MANUAL
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Document number
Revision
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Prepared by
Date
SEM/BMDES RODNEY WILLIAMS
2005-02-17
Contents responsible if other than preparer
Remarks
This document is managed in metaDoc.
Approved by
SEM/BMDES (RODNEY WILLIAMS)
EDGE Daughter Card User Manual
The information contained in this document is the proprietary information of Sony Ericsson
Mobile Communications International. The contents are confidential and any disclosure
to persons other than the officers, employees, agents or subcontractors of the owner or
licensee of this document, without the prior written consent of Sony Ericsson Mobile
Communications International, is strictly prohibited. Further, no portion of this
publication may be reproduced, stored in a retrieval system, or transmitted in any form or by
any means, electronic or mechanical, including photocopying and recording, without the
prior written consent of Sony Ericsson Mobile Communications International, the
copyright holder.
Sony Ericsson Mobile Communications International publishes this document without
making any warranty as to the content contained herein. Further Sony Ericsson Mobile
Communications International reserves the right to make modifications, additions and
deletions to this document due to typographical errors, inaccurate information, or
improvements to programs and/or equipment at any time and without notice. Such changes
will, nevertheless be incorporated into new editions of this document.
All rights reserved.
© Sony Ericsson Mobile Communications International, 2005
Note: Any hard copy of this document is for reference only. Due to template and application dependencies the header and footer may fail to display correct data. It is
the responsibility of the user to ensure that they have a correct and valid version. Any outdated hard copy is invalid and must be removed from possible use.
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Contents
Part 1 : Overview ...............................................................................................3
Introduction ..........................................................................................4
1.1
Target Users........................................................................................5
1.2
Prerequisites........................................................................................5
1.3
Notation ...............................................................................................5
EDGE Wireless Modem.......................................................................6
2.1
EDGE Wireless Modem in a Communication System .........................6
2.2
Functional Block Diagram....................................................................8
2.3
Features ..............................................................................................9
2.3.1
Mobile Station Characteristics .............................................................9
2.3.2
Environmental Conditions..................................................................12
2.4
SIM Card ...........................................................................................12
2.5
Other Features ..................................................................................12
2.6
Precautions........................................................................................12
Part 2 : Daughter Card Description .................................................................13
Mechanical Description .....................................................................14
3.1
Physical Detail ...................................................................................14
System Interface................................................................................16
4.1
Overview............................................................................................16
4.1.1
System Connector .............................................................................16
4.2
Electrical Interface Detail Format.......................................................18
Electrical Interface .............................................................................19
5.1
Power Interfaces................................................................................19
5.1.1
VIN.....................................................................................................19
5.1.2
3V3 ....................................................................................................21
5.1.3
VREF .................................................................................................21
5.1.4
GND...................................................................................................22
5.2
Status Interfaces................................................................................23
5.2.1
UVP ...................................................................................................23
5.2.2
OVP ...................................................................................................24
5.2.3
RI .......................................................................................................24
5.2.4
LED....................................................................................................25
5.2.5
VREF .................................................................................................25
5.3
Data Communication and Control Interfaces.....................................26
5.3.1
USB Interface ....................................................................................26
5.3.2
P_EN .................................................................................................26
5.4
ANTENNA CONNECTOR .................................................................27
Rudimentary Circuit Functions ..........................................................28
6.1
Power On Sequence .........................................................................28
6.2
Power Off Sequence .........................................................................29
6.3
USB communications timing..............................................................29
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Part 1 : Overview
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Introduction
The EDGE Daughter Card product is a custom product, developed for the host equipment
customer.
The EDGE Daughter Card is a total solution designed as an add-in option for integrators
of the host equipment. The Daughter Card comprises of several component parts:
• EDGE wireless modem, which is the wireless enabling circuitry integrated on to the
Daughter Card PCB together with its mechanical RF shielding
• RF connector, which provides physical connectivity between the Daughter Card and
the antenna which is integrated in to the notebook mechanical housing
• Voltage regulation circuitry, which converts raw unregulated power from the host
battery to the core regulated voltage to the EDGE wireless components
• System connector, which provided the data, control, power and status interface
between the host and the wireless modem
• SIM connector, a combined connector and retention device for the users Subscriber
Identity Module (SIM) card
EDGE WIRELESS
CIRCUITRY
VOLTAGE
REGULATION
SYSTEM
CONNECTOR
RF ANTENNA
CONNECTOR
SIM
CONNECTOR
DAUGHTER
CARD
Figure 1-1 EDGE Daughter Card Component Parts
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Target Users
The EDGE Daughter Card solution is specifically for the host equipment.
1.2
Prerequisites
Integration of the EDGE Daughter Card will be performed at facilities under the host
equipment customer’s management. All necessary integration instruction, driver software
and user documentation will be provided. No special pre-requisite knowledge is
necessary.
1.3
Notation
This document describes a custom solution for the host equipment. The Daughter Card
product is defined through a cooperative partnership between the host equipment
customer and Sony Ericsson Mobile Communications (SEMC).
EDGE (Enhanced Data rate for GSM Evolution) is the wireless-enabling technology.
The EDGE Daughter Card is a PCB assembly with the components described on the
previous page integrated on to the board. The complete assembly is reffered in this
document as the the host equipment DC (DC=Daughter Card ).
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EDGE Wireless Modem
2.1
EDGE Wireless Modem in a Communication System
Figure 2-1 illustrates the main blocks of a wireless communication system using the
EDGE Daughter Card embedded in the host equipment device. It also shows the
communication principles of the system. The definitions in the figure, as used elsewhere
in this manual, are in accordance with the recommendations of GSM 07.07.
• The MS (mobile station) represents the EDGE Daughter Card modem plus SIM card.
• The modem excluding SIM card, is known as the ME (mobile equipment).
• The TE (terminal equipment) is a micro-controller and is a part of the application.
Wireless Communications System
Host Equipment
GSM Network
AT commands to control MS
TE
(DTE)
MS Status, responses
MS
(EDGE
MODEM)
Figure 2-1 Main Blocks in a Wireless System
In accordance with the recommendations of ITU-T (International Telecommunication
Union - Telecommunications Standardisation Sector) V.24, the TE communicates with the
MS over a serial interface. In this case this is the Universal Serial Bus (USB).
The functions of the EDGE modem follow the recommendations provided by ETSI
(European Telecommunications Standards Institute) and ITU-T.
ETSI specifies a set of AT commands for controlling the GSM/E-GSM element of the
modem; these commands are supplemented by Sony Ericsson specific commands.
Figure 2-2 illustrates the interface between the Daughter Card and the the host equipment
application. Each interface signal is described in Section 3.
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HOST EQUIPMENT
Control
Status
SYSTEM CONNECTOR
Power
Power
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Antenna
Communication
TE
(DTE)
7(31)
MS
(EDGE
MODEM)
SIM
Voltage
Voltage
Reg
Reg
Figure 2-2Figure 2-2 Interface between Daughter Card and Application
Note that ITU-T standards define TE and TA as DTE (Data Terminal Equipment) and DCE
(Data Circuit Terminating Equipment) respectively.
RFMD
RF3145
bias
PA
VPA
fixed VAPC
SWITCH
MAX4695
PMB2259
DC+ DRIVER
limiter
:2
:4
:4
:2
INFINEON PMB6258
90°
90°
90°
90°
PLL
RF TRANSCEIVER ASIC
LOOP FILTER
Serial
Contr
13MHz
VCXO
32kHz
XTAL
AGC
DAC
PGA
D-S
ADC
MOD
DAC
PA
DAC
Mod
AFC
DAC
PLL
TX/RX
State
Machine
Power
Control
Bridge
BROADCOM BCM2132
PA
RAM
AGC
Register
Burst
Buffer
Burst
Buffer
RF
Serial
Port
AFC
Register
GSM
Timer
Bridge
CACHE
USB
UART
GPIO
SIM
Arbiter
DMA
JTAG
POWER STATUS
OV &
SCCT
PROTECTION
VPA
VOLT
REG
LEVEL
SHIFTER
Figure 2-3 EDGE Daughter Card Functional Block Diagram
POWER
SYSTEM CONNECTOR
SWITCHING
REGULATOR
VOLTAGE REGULATORS
Power
Mngmt
Interrupt
Control
Boot
ROM
Channel
Coding
Shared
Memory
A5
Encrypt
Equalizer
Viterbi
Accel
External
Memory
Interrupt
Control
ARM926EJ
EDGE MODULE
BALUN
muRata
LMSP54JA-238
RX SAW
FILTERS
BASEBAND ASIC
XRAM
TeakLite
DROM
DSP
YRAM
USB
UART LED
SIM INTERFACE
DAUGHTER CARD
ANT SWITCH
ANTENNA
CONNECTOR
INTEL
RD38F2030W0Z
PRAM
PROM
2.2
PROCESSOR BUS
MEMORY
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Functional Block Diagram
A function representation of the EDGE duaghter card is included in the figure below.
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Features
The EDGE modem performs a set of telecom services (TS) according to GSM standard
phase 2+, ETSI and ITU-T. The functions of the modem are implemented by issuing AT
commands over a serial interface.
2.3.1
Mobile Station Characteristics
The EDGE modem can be configured for single, dual, triple and quad band GSM
functionality. The quad band characteristics of the EDGE modem are shown in the
following table.
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GSM8
50
EDGE MODEM
Frequency range (MHz)
TX:
824849
RX:
869894
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E-GSM900
123 x 8
(TDMA
Duplex spacing
Tx Spectrum
Due to
Modulation
Tx Spectrum
Due to
Switching
Transients
TX: 1710-1785
TX: 1850-1910
RX: 925-960
RX: 1805-1880
RX: 1930-1990
GS
ED
GE
Receiver
sensitivity
(ANT
connector)
173 x 8 (TDMA)
45MHz
373 x 8 (TDMA)
298 x 8 (TDMA)
95MHz
80MHz
GSM/G
PRS
GMSK
EDGE
8-PSK
Nom.
TBD
Max.
<5° rms phase error ; <20° max peak phase error
100KH
<+0.5dB
200KH
<-30dB
250KH
<-33dB
400KH
<-60dB
100KH
<-23dBm
200KH
<-26dBm
250KH
<-32dBm
400KH
<-36dBm
Receiver sensitivity
(ANT pin)
Transm
itter
output
power
(ANT
conn)
GSM1900
200kHz
Number of channels
Tx phase
accuracy
(burst)
GSM1800
TX: 880-915
Channel spacing
Modulation
10(31)
<102dB
<-102dBm
<-102dBm
<-102dBm
Class
Class 4
Class 1
Nom.
+33dBm
+30dBm
Class
Class E2
Class E2
Nom.
+27dBm
+26dBm
Nom.
<104d
Bm
Max.
<102d
Bm
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Rx
Intermodulati
on
f1
-49dBm
F0 = 2f1-f2;
f2
-49dBm
|f2–f1| =
800KHz
GPRS operation
Class 10
Note that the number of frequency bands available will be dependant upon the factory
configuration. The available bands will be determined by customer requirements.
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2.3.2
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Environmental Conditions
The DC will support the following environmental conditions
Temperature Range (Full GSM Specification)1
-10oC to +55oC
Temperature Range (Operational) 2
-20oC to +65oC
Storage Temperature Range
-20°C to +75°C
Table 2.3-1 Environmental Conditions
Notes
1. Full compliance to Type Approval and Regulatory Approval requirements between these
temperature ranges
2. Design Verification Testing (DVT) and Operational compliance between these temperature
ranges.
2.4
SIM Card
An external SIM card with 3V or 1.8V technology, can be connected to the modem via the
SIM interface pins.
2.5
Other Features
The EDGE modem supports a number of additional features including
• 07.10 multiplexing (normal mode)
• SIM application tool kit
2.6
Precautions
The EDGE modem device is ESD protected up to 4K V contact and 8K V air discharge. It
is recommended that integrators follow electronic device handling precautions when
working with any electronic device system to ensure no damage occurs to the host or the
radio device.
The EDGE modem is integrated on to the daughter card. When the card is mounted in
the host it is the responsibility of the integrator to ensure that static discharge protection
beyond the voltages specified above are designed in to the host product. If exposed, the
antenna is a vulnerable contact point for ESD.
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Part 2 : Daughter Card Description
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Mechanical Description
Physical Detail
Dimensional details given here are for reference only. For mechanical design data,
please refer to the mechanical outline drawing 151 88 - KRD 104 1025/2.
WIRELESS
MODEM
CIRCUIT
(SHIELDED)
SYSTEM CONNECTOR
RF CONNECTOR
Figure 3-1 Layout Detail (reference only)
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Figure 3-2 EDGE Daughter Card Primary Side View
Figure 3-3 EDGE Daughter Card Underneath View
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System Interface
4.1
Overview
4.1.1
System Connector
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All of the systems interface signals flow through a single connector; power, ground, data,
cotrol, status and GPIO.
Electrical connections to the modem are made through a 24 pin low insertion force (LIF)
vertical SMT mount FFC or FPC cable receptor. The connector is a single sided contact
type, for example the AVX Elco part 04-6244-024-011-800.
Connector type
NON-ZIF (LIF) ST SMT
Contact
Single
Profile Height (mm)
4.10
Number of Contacts
24
Current Rating
0.4A Max.
Voltage Rating
50V Max.
Dielectric withstanding voltage
200Vrms
Contact Material
Phosphor bronze Tin-Plated
Insulator material
Heat resistant plastic
Operating temperature
40ºC~+85ºC
FFC/FPC thickness
0.3±0.05
Table 4.1-1 Connector Characteristics
DATUM MARK
PIN 24
PIN 1
(DATUM PIN)
DETAIL A
11.5
12.6
DETAIL A
0.2 ±0.05
0.5 TYP
Figure 4-1 Connector Detail
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Name
Function
USB_DN
USB differential (-) line
USB_DP
USB differential (+) line
VREF
Modem logic voltage reference output from daughter card
OVP
Over voltage protection output from daughter card
SPARE
SPARE
SPARE
GND
Ground
GND
Ground
10
GND
Ground
11
GND
Ground
12
GND
Ground
13
GND
Ground
14
VIN
Voltage input from host application
15
VIN
Voltage input from host application
16
VIN
Voltage input from host application
17
VIN
Voltage input from host application
18
VIN
Voltage input from host application
19
VIN
Voltage input from host application
20
RI
Ring Indicator output from daughter card
21
3V3
Application reference voltage input to daughter card
22
LED
Pulsing LED output from daughter card
23
UVP
Under voltage & short circuit protection output from daughter card
24
P_EN
Power ON enable input to daughter card
Table 4.1-2 Pin List
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Electrical Interface Detail Format
Details of each electrical interface is contained in paragraph 5 (beginning page 19). The
description of each interface follows a common format. An example is shown below:
Interface Name
This is the name of the interface; usually this is the actual name found in the pin list;
sometimes this is a collective name for a number of signals, such as the example
shown here for a UART.
Function:
This identifies the basic function of the interface; some interfaces are grouped
according to their functional sub-class.
Description:
The description contains a basic overview of the interface and its functional
relationship with the host.
Pin Numbers:
All pin numbers associated with the interface are listed; these will not necessarily
be in numerical order but may be arranged to coincide with signal name list.
Signal Names:
All sigal names associated with the interface exactly as shown in the pin list; the
signal names also contain information on signal flow direction.
If not used:
This gives specific details, for each signal, of how to terminate the physical
connection if it is not required by the host; failure to observe this convention may
result in unstable operation of the EDGE modem. (This may not be necessary in the
host application since all signals have a defined function).
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Electrical Interface
This section describes each signal line of the electrical interface between the EDGE
modem and the host equipment application. A summary of the function of each signal is
provided, together with any additional relevant information.
Signals are described from the perspective of the EDGE modem and Daughter Card
circuitry. Consequently signals described as input are inputs to the modem, driven by the
host [host⇒modem]. Likewise, signals described as output are driven by the modem in to
the host [modem⇒host]. Bi-directional signal flow (I/O) is indicated by a double-headed
arrow [modem⇔host]. In some instances the [daughter card] will be identified if the
modem circuitry is not directly involved, or where additional interface circuitry resides
between the host and the modem.
Signals which are pulled internally are identified in parentheses beside the signal name as
either (PU)=Pulled Up or (PD)=Pulled Down. Signals with no designation are not pulled
either way.
5.1
Power Interfaces
This section describes the power, ground, and other signals that control or indicate power
states.
•
•
•
•
5.1.1
VIN
3V3
VREF
GND
VIN
Function:
Daughter card power supply
Description:
Primary voltage supply to switching regulator (5.5 to 20.0V).
Pin Numbers:
14, 15, 16, 17, 18, 19
Signal Names:
VIN
If not used:
Required
[host⇒daughter card]
Details:
Power provided by the host will range from 5.5V minimum to a maximum 20.0V,
dependent upon the battery discharge state. The Daughter Card has on board regulation
which regulates the supply range to a steady 3.6V by means of a switching regulator rated
at 3A max.
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Typical Electrical Characteristics:
Parameter
Condition
Low
Mid
High
Unit
5.5
7.4
20.0
GSM850
2-slot TX
1880
1500
950 est
average
GSM850
2-slot TX
450
340
145 est
average
DRX 2
9.9
7.6
3.8 est
Voltage
Transmit mode
Power Consumption
(worst case)
Idle mode
Power Consumption
(worst case)
Peak*
mA
*Peak current consumption is an instantaneous value which occurs during a TDMA
transmitter burst.
Table 5.1-1: VIN Electrical Characteristics
mA
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5.1.2
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3V3
Function:
Daughter card reference voltage
Description:
Host reference to protection circuit & USB (3.3V)
Pin Numbers:
21
Signal Names:
3V3
If not used:
Required
[host⇒daughter card]
Details:
The host supplies a 3.3V regulated supply to the Daughter Card for two primary functions:
• reference supply for the undervoltage / short circuit protection circuitry
• input for the USB interface
Electrical Characteristics:
Parameter
Condition
Min
Voltage
Nom
3.30
Ripple
5.1.3
Max
Unit
100
mV
VREF
Function:
Voltage Reference
Description:
Core digital voltage reference from modem.
Pin Number:
Signal Name:
VREF
If not used:
Required
[modem⇒host]
Details:
VREF is supplied as a reference voltage from the modem. This reference is the modem’s
core digital supply voltage at a nominal 2.80V.
The interface is capable of sourcing 200uA and is intended primarily for situations where
host interface circuitry is required to be level shifted to maintain wireless modem signal
level compatibility. If more current is required by the host, a current amplifier must be
implemented.
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This signal can also be used to indicate whether the wireless modem is powered on or
not. A high level (2.7V to 2.9V) indicates that the modem is powered on. A low level
(<0.5V) indicates that the modem is powered off.
All digital logic, except the SIM interface, is characteristic CMOS logic operating at VREF.
Electrical Characteristics:
Parameter
Condition
VREF output voltage
inactive
active
VREF output current IOUT
Table 5.1-2: VREF Electrical Characteristics
5.1.4
GND
Function:
Ground
Description:
Modem common rail
Pin Numbers:
8, 9, 10, 11, 12, 13
Signal Name:
GND
If not used:
Required
Details:
Return path for all currents.
Min
Typ
Max
Unit
2.70
0.3
2.80
0.5
2.90
200
uA
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Status Interfaces
Status interfaces indicate or control status features of the modem.
•
•
•
•
•
5.2.1
UVP
OVP
RI
LED
VREF
UVP
Function:
Under voltage protection
Description:
Status indicator to host of potential malfunction in Daughter Card
circuitry
Pin Number:
23
Signal Name:
UVP (PD)
If not used:
Required
[daughter card⇒host]
Details:
The Daughter Card has FET circuitry which uses 3V3 as a reference, driving an output to
the host indicating the voltage condition of the of VBAT (the modem supply voltage). A
resistive divider connected to VBATT presents a very low Vbe to the UVP transistor. This
presents a steady state low voltage output under normal VBAT conditions with external
pulldown circuitry. In the event of a short circuit or high current fault condition on the
Daughter Card, the voltage drop from the switching regulator will bias the UVP transistor
on and present a high output to the host equipment monitoring circuit.
The UVP signal should be pulled low by the application circuit for correct function.
Electrical Characteristics:
Parameter
UVP output voltage
Condition
Min
Typ
Normal
Fault
Table 5.2-1: UVP Electrical Characteristics
3.3
Max
Unit
0.5
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5.2.2
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OVP
Function:
Over voltage protection
Description:
Status indicator to host of potential malfunction in Daughter Card
circuitry
Pin Number:
Signal Name:
OVP (PU)
If not used:
Required
[daughter card⇒host]
Details:
The OVP signal is simply an output from the main onboard regulator. In it’s operational
state under normal functional conditions this will output 3.6V nominal
Parameter
Condition
UVP output voltage
Min
Normal
Fault
Typ
3.6
3.7
Max
Unit
Table 5.2-2: OVP Electrical Characteristics
5.2.3
RI
Function:
Ring Indicator
Description:
Alert signal from the modem to indicate an incoming SMS, or
unmasked unsolicited response
Pin Number:
20
Signal Name:
RI
If not used:
Leave open
[modem⇒host]
Details:
Ring Indicator is essentially a wake-up call from the modem to the host application to
signal one of two events:
• an in-coming message (SMS).
• an unmasked unsolicited response/result code.
For the EDGE modem the Ring Indicator is implemented as a GPIO interface within the
EDGE baseband device.
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A falling edge indicates an alert or message. The signal remains low for a period of time
before going high. An SMS-page or unsolicited response/result code generates one pulse
(the length is configurable using an AT command)[TBC].
The ring indicator is implemented on the daughter card as an open collector transistor
output to allow the host the convenience of driving the host equipment circuitry.
5.2.4
LED
Function:
LED
Description:
LED-signal indicating a status change
Pin Number:
22
Signal Name:
LED
If not used:
Leave open
[modem⇒host]
Details:
The LED is implemented on the Daughter Card as an open collector transistor output
which providesa driver level interface to an LED acting as a status indicator for the user.
The LED output can be made to blink at a rate pre-determined by modem software.
5.2.5
VREF
The function of VREF is already described in 5.1.3. This interface can be used as a
status indicator to the host that the modem is still powered. VREF is present whilst the
modem is powered and is removed upon the completion of the modem power down. This
feature can be useful in the event of a communications lock-up between the host and the
daughter card.
Confidential
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5.3
26(31)
Document number
Revision
1/198 17-5/FCP 101 3317 Uen
Data Communication and Control Interfaces
The serial data and control interfaces consist of the following :
•
•
5.3.1
USB
P_EN
USB Interface
Function:
USB data communication port
Description:
USB transmit and receive port for data communication between
modem and host.
Pin Numbers:
1, 2
Signal Names:
USB_DP (2) [modem⇔host]
USB_DN (1) [modem⇔host]
If not used:
Required
Details:
Power to the USB interface is provided by the 3V3 input from the host.
5.3.2
P_EN
Function:
Power Enable
Description:
Modem power enable control from host
Pin Numbers:
24
Signal Names:
P_EN
If not used:
Required
[host⇒daughter card]
Details:
The power enable signal is provided from the host application and is routed to the
switching regulator shutdown input and also to the REG_EN (regulator enable) pin on the
modem. Assertion of this pin will initiate power up. The P_EN pin is active high and has
to be maintained continually in order to keep the modem powered.
Confidential
USERS MANUAL
5.4
27(31)
Document number
Revision
1/198 17-5/FCP 101 3317 Uen
ANTENNA CONNECTOR
Function:
Antenna connector
Description:
50 ohm wireless antenna connection.
Pin Numbers:
N/A
Signal Names:
ANTENNA
If not used:
Required
Details:
The antenna interface to the modem is routed to a low profile coaxial connector on the
daughter card. The antenna connector has a nominal impedance of 50 ohms and a
maximum frequency rating of 2.5GHz.
IMPORTANT NOTE:
FCC Radiation Exposure Statement:
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled
environment. This equipment should be installed and operated with minimum distance of
20cm between the radiator and your body.
This transmitter must not be co-located or operating in conjunction with any other antenna
or transmitter.
Confidential
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Document number
Revision
1/198 17-5/FCP 101 3317 Uen
Rudimentary Circuit Functions
This section contains some rudimentary circuit functions for the sequencing of powering
the modem up and down.
6.1
Power On Sequence
This sequence illustrates the power on procedure.
Figure 6-1 Power On Sequence
Sequence Detail:
VIN and 3V3 are supplied to the modem by the host. These two voltages can be
supplied simultaneously when the Daughter Card is required to be powered on.
Both voltages must be present before the power on sequence is initiated for the
Daughter Card to function correctly.
Once VIN and 3V3 voltages are applied the host can enable power up by
asserting power enable signal P_EN. The power up process will begin.
VREF may be used as an indicator that the modems regulators are powered.
tPOn is typically less than 70 ms
Confidential
USERS MANUAL
6.2
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Document number
Revision
1/198 17-5/FCP 101 3317 Uen
Power Off Sequence
This sequence illustrates the power off procedure.
Figure 6-2 Power Off Sequence
Sequence Detail:
6.3
The “AT+CFUN=4” instruction is sent from the host application to the modem in
order to initiate a deregistration sequence.
The modem responds to the request with an ‘OK’ to indicate that deregistration
is completed. Deregistration from the network can take from 3-30 seconds.
After de-registration has been acknowledged the host application may remove
P_EN.
The switching regulator output capacitor will gradually discharge until the modem
regulators threshold is exceeded. and power down will be complete. VREF may
be used as indicator of complete shut down.
When the modem has successful shutdown, and VREF has fallen bellow 0.5V
then the host may safely remove VIN and 3V3 at any time. However the
supplies can remain active without increasing current consumption (typically
<25uA).
USB communications timing
This sequence illustrates USB initialization.
Confidential
USERS MANUAL
30(31)
Document number
Revision
1/198 17-5/FCP 101 3317 Uen
1. The startup sequence begins with the completion of the power up ramping of the
VREF signal as described in Power On Sequence.
2. The D+ signal is brought high with the power up of the USB block in the
baseband circuitry. This produces the J state indicating to the USB host that a
device is attaching.
3. A host initiated SE0 begins the USB protocol transactions.
summary of USB transactions is shown for example.
A power up
Transactions by Device:
Type
SETUP
IN
OUT
#Transactns
Total
Error
Acknowledgement
ACK
NAK
None
Bytes
Attempt
32
36
Addr
Endp
SETUP
IN
OUT
56
132
56
132
SETUP
IN
OUT
24
27
24
27
IN
OUT
7164
7161
63
39
63
39
Control Transfers by Device:
Addr
Endp
Packet#
Dir
336 D->H
426 H->D
874 D->H
904 H->D
Type
Standard
Standard
Standard
Standard
Recipient
Device
Device
Device
Device
Request
GET_DESCRIPTOR
SET_ADDRESS
GET_DESCRIPTOR
SET_ADDRESS
Success
32
36
Value
256
256
Index
Length
64
64
472
481
490
670
679
688
697
D->H
D->H
D->H
D->H
D->H
D->H
H->D
Standard
Standard
Standard
Standard
Standard
Standard
Standard
Device
Device
Device
Device
Device
Device
Device
GET_DESCRIPTOR
GET_DESCRIPTOR
GET_DESCRIPTOR
GET_DESCRIPTOR
GET_DESCRIPTOR
GET_DESCRIPTOR
SET_CONFIGURATION
256
512
512
256
512
512
18
255
18
39
950
959
968
D->H
D->H
H->D
Standard
Standard
Standard
Device
Device
Device
GET_DESCRIPTOR
GET_DESCRIPTOR
SET_CONFIGURATION
256
512
18
Confidential
USERS MANUAL
Eye Diagram for Full Speed USB signaling.
31(31)
Document number
Revision
1/198 17-5/FCP 101 3317 Uen

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