Kyocera KWC-M200 Transmitter Module User Manual 82 M8862 1

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Various burst lengths are used for different ST activities. Four uses of signaling
tone are:
Indicates ringing
Acknowledges a handoff
Indicates call termination
Indicates switch hook
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The supervisory audio tone (SAT) is one of three frequencies around 6 kHz used
in AMPS signaling. SAT is generated by the cell site, checked for frequency or
accuracy by the cellular telephone, then transponded (that is, not merely
reflected but generated and returned) to the cell site on the REVC.
The cellular telephone uses SAT to verify that it is tuned to the correct channel
after a new voice channel assignment. When the central controller (switch)
signals the mobile regarding the new voice channel, it also informs the mobile of
the SAT frequency vector to expect on the new channel. The returned SAT is
used at the cell site to verify the presence of the telephone’s signal on the
designated channel.
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When a cellular telephone user originates a call, the cellular telephone re-scans
the access channels to ensure that it is still tuned to the strongest one. The
cellular telephone then transmits data at the rate of 10 kilobits per second on the
control channel to notify the switch of its mobile identification number (MIN)
and the number it wants to reach. The switch verifies the incoming data and
assigns a voice channel, and when a SAT is correct, the telephone transponds the
SAT back to the cell site and unmutes the forward audio.
At this point both forward and reverse audio paths are unmuted and the cellular
telephone user can hear the other end ring, after which conversation can take
place. The SAT is sent and received more or less continuously by both the base
station and the cellular telephone. However, the SAT is not sent during data
transmissions and the cellular telephone does not transpond the SAT
continuously during voice operated transmit VOX operation. Notice that SAT and
signaling tones are only used on AMPS voice channels, and that the signaling tone
is transmitted only by the cellular telephone.
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Once a cellular telephone has gone into service, it periodically scans the
overhead message information in its memory and monitors the paging messages
for its telephone number. When a page match occurs the cellular telephone
scans each of the access channels and tunes into the strongest one. The cellular
18
Kyocera 200 Module Data Book
Kyocera Proprietary
UOJjUUSOJN=oÉîK=MMP
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telephone then acknowledges the page on that access channel and notifies the
central controller of its cell location. The switch then assigns a voice channel and
a SAT to the cellular telephone. The cellular telephone tunes to the voice
channel, verifies the presence of the proper SAT frequency, and transponds the
signal back to the cell site.
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As a call progresses, the site continuously monitors the reverse channel for signal
strength.
Analog cellular telephones have eight power steps, but portable models are
prevented from using the two highest power steps by the cell site. (Power steps
0 and 1 are the same as power step 2). Transmit power level commands are sent
to the cellular telephone as required to maintain the received signal strength
within prescribed limits.
This is done to minimize interference possibilities within the frequency re-use
scheme. If the signal received from the cellular telephone is higher than the
prescribed limit (such as when the unit is very near the cell site), the subscriber
unit is instructed to step down to a lower level.
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If the cellular telephone is at its maximum allowed power for the cell site it is
using, and the received signal at the cell site is approaching the minimum
allowable (typically -100 dBm), the cell site signals the switch to consider the
subscriber unit for a handoff. The central controller (switch) in turn has a
scanning receiver at each of the surrounding cell sites measure the cellular
telephone’s signal strength. The site with the strongest signal is the site to which
the call is handed if there are available voice channels.
On an AMPS channel, the handoff is executed by interrupting the conversation
with a burst of data (called blank and burst) containing the new voice channel
assignment. The telephone acknowledges the order by a 50 millisecond burst of
10 kHz signaling tone on the originally assigned voice channel. The mobile
telephone then drops the original voice channel and tunes to the newly assigned
voice channel, keying up on that channel and transponding the assigned SAT.
Kyocera Proprietary
Kyocera 200 Module Data Book
19
CDMA and Cellular
Fundamentals
At the cell site, the reception of SAT signals the central controller that the cellular
telephone is ready for the call. An alert order is then sent to the cellular
telephone which responds with a 10 kHz signaling tone. The subscriber unit
rings for 65 seconds or until someone answers. Then the 10 kHz signaling tone is
terminated to alert the central controller that someone has answered. The switch
then connects the incoming call to the appropriate circuit leading to the cell in
contact with the cellular telephone. At this point both forward and reverse audio
paths are unmuted and the conversation can take place. The SAT is sent more or
less continuously by the base station and transponded by the cellular telephone,
except during data transmission.
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Once the handoff has been accomplished, the newly assigned cell site then alerts
the switch that the handoff has been completed and the old voice channel is
dropped.
Note
This data exchange occurs very quickly, within only 260 milliseconds. However, when data or
signaling tones are transmitted, audio is muted for the duration of that transmission and a syllable
or two may be dropped from conversation.
This is normally not a problem, but during data signaling, such as that employed for telefacsimile,
answering machine, and computer communications, significant amounts of information may be
lost. For this reason it is recommended that when the cellular connection is used the vehicle
should be stationary to avoid data loss during handoffs and other data transmission. Otherwise,
the equipment should employ an error correction protocol.
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The following is a partial list of CDMA carriers worldwide for PCS (1900 MHz)
and cellular (800 MHz), and is subject to change. (For a current listing of CDMA
carriers, please visit the Web site for the CDMA Development Group at CDG
http://www.cdg.org.) Please verify that your carrier supports the Kyocera 200
Module.
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^ìëíê~äá~
AAPT Ltd.
Hutchison Telecom Australia (Orange)
Leap Wireless International (Oz Phone Pty)
Orange
Telestra Corporation Limited
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Pacific Bangladesh Telecom Limited
`Üáå~LeçåÖ=hçåÖ
China Unicom
Hutchison Telecom (HK) Ltd.
fåÇá~
20
Mahanagar Telephone Nigam Limited (MTNL)
Reliance India Mobile
Shyam Telelink Limited
Tata Teleservices Limited
Kyocera 200 Module Data Book
Kyocera Proprietary
UOJjUUSOJN=oÉîK=MMP
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fåÇçåÉëá~
Komunikasi Selular Indonesia (Komselindo)
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DDI Corporation
hçêÉ~
Korea Telecom Freetel, Inc.
LG Telecom, Ltd.
SK Telecom
CDMA and Cellular
Fundamentals
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Telecom Mobile Limited
bìêçéÉ=J=oìëëá~
oìëëá~
Leap Wireless International
BellSouth International
däçÄ~ä
`~êáÄÄÉ~å=J=i~íáå=^ãÉêáÅ~
^êÖÉåíáå~
CTI Movil
Movicom - Bellsouth
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Vivo
`ÜáäÉ
Bell South
Smartcom PCS
`çäìãÄá~
Bell South
açãáåáÅ~å=oÉéìÄäáÅ
Kyocera Proprietary
Centennial Dominicana
Codetel
Kyocera 200 Module Data Book
21
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Bell South
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PCS Digital
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Celtel
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IUSACELL
Operadora UNEFON SAde CV
Telefonica.
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Bell South
m~å~ã~
Bell South
mÉêì
Bell South
Telefonica
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Centennial Wireless de Puerto Rico
Movistar
Sprint PCS
Verizon
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Bell South
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Moviluet
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^åÖçä~
Angola Telecom
fëê~Éä
22
Pele-Phone Communications, Ltd.
Kyocera 200 Module Data Book
Kyocera Proprietary
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kçêíÜ=^ãÉêáÅ~
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Bell Mobility
SaskTel
Telus Mobility Cellular, Inc.
CDMA and Cellular
Fundamentals
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Kyocera Proprietary
3Rivers Wireless
Alaska Digital
Alltel Communications
Amica Wireless
Blackfoot Communications
Cleartalk
Cricket Communications
First Cellular
Hargray Communications
Leap Wireless International (Chase Telecommunications)
Nextel Communications, Inc.
NTELOS
PCS Digital
Poka Lambro Wireless
PVT Networks
Pine Belt Wireless
PYXIS Communications
Qwest Wireless
RCS Wireless
San Isabel
South Central Communications
Sprint PCS
SRT
US Cellular
Verizon Wireless
Wireless North
Kyocera 200 Module Data Book
23
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Please note that this is only a partial list of CDMA carriers worldwide for PCS
(1900 MHz) and cellular (800 MHz), and it is subject to change.
24
Kyocera 200 Module Data Book
Kyocera Proprietary
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The International Telecommunications Union (ITU), working with worldwide
industry bodies, implemented the IMT-2000 program to develop standards for 3G
systems. CDMA2000, one of the most important of the ITU IMT-2000 standards,
is the first 3G technology to be commercially deployed.
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IMT2000 terrestrial radio interfaces:
IMT-2000 CDMA Multi-Carrier (MC) Ó CDMA2000 1X and 3X
IMT-2000 CDMA Direct Spread (DS) Ó WCDMA (UMTS)
IMT-2000 CDMA TDD Ó Ultra TDD and TD-SCDMA
IMT-2000 TDMA Single Carrier Ó UWC-136/EDGE
IMT-2000 FDMA/TDMA Ó DECT
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The cdma2000 family of standards specifies a spread-spectrum radio interface
that uses Code Division Multiple Access (CDMA) technology to meet the
requirements for 3G wireless communication systems. The standards in the
family are:
IS-2000-1, Introduction to cdma2000 Standards for Spread Spectrum Systems
IS-2000-2, Physical Layer Standard for cdma2000 Spread Spectrum Systems
IS-2000-3, Medium Access Control (MAC) Standard for cdma2000 Spread
Spectrum Systems
IS-2000-4, Signaling Link Access Control (LAC) Standard for cdma2000 Spread
Spectrum Systems
IS-2000-5, Upper Layer (Layer 3) Signaling Standard for cdma2000 Spread
Spectrum Systems
IS-98-D, Recommended Minimum Performance Standards for cdma2000
Spread Spectrum Systems
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OR
CDMA2000 3G
Five terrestrial standards were developed as part of the IMT-2000 program.
CDMA2000 1X, like CDMA2000 3X, is an ITU-approved, IMT-2000 (3G) standard.
It is part of what the ITU has termed IMT-2000 CDMA MC, and was sanctioned
along with four other terrestrial IMT-2000 standards (listed below) when ITU-R
completed the Recommendations in late 1999.
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In addition, the family includes a standard that specifies analog operation, to
support dual-mode mobile stations and base stations:
IS-2000-6, Analog Signaling Standard for cdma2000 Spread Spectrum Systems
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cdma2000 provides full backward compatibility with TIA/EIA-95-B. This permits
cdma2000 infrastructure to support TIA/EIA-95-B mobile stations and permits
cdma2000 mobile stations to operate in TIA/EIA-95-B systems. The cdma2000
family also supports reuse of existing TIA/EIA-95-B service standards, such as
those that define speech services, data services, Short Message Services, and
Over-the-Air Provisioning and Activation services, with the cdma2000 physical
layer.
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cdma2000 is not constrained to only the IMT band; it is defined to operate in all
existing allocated spectrum for wireless telecommunications, thereby
maximizing flexibility for operators. Furthermore, cdma2000 delivers 3G
services while occupying a very small amount of spectrum (1.25 MHz per
carrier), protecting this precious resource for operators.
These bands include:
Cellular (824Ó849 and 869Ó894 MHz)
PCS (1850Ó1910 and 1930Ó1990 MHz)
TACS (872Ó915 and 917Ó960 MHz)
JTACS (887Ó925 and 832Ó870 MHz)
KPCS (1750Ó1780 and 1840ÓN870 MHz)
NMT-450 (411Ó493 MHz, not continuous 10 MHz spacing)
IMT-2000 (1920ÓN980 and 2110Ó2170 MHz)
700 MHz (776Ó794 and 746Ó764 MHz)
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cdma2000 is evolving to continue to meet the future demands of the wireless
marketplace. The cdma2000 1xEV standards will provide data-optimized
channels, offering data rates well in excess of the ITU IMT-2000 2 Mbps
requirement.
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OS
Voice
Data up to 14.4 Kbps
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Voice
Data up to 115 Kbps
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2X increases in voice capacity
Up to 307 Kbps packet data on a single (1.25 MHz or 1X) carrier in new or
existing spectrum
First 3G system for any technology worldwide
cdma2000 1X has been commercially available since October 2000.
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Optimized, very high-speed data (Phase 1)
Up to 2.4 Mbps (downlink) packet data on a single (1.25 MHz) carrier
Integrated voice and data (Phase 2); up to 4.8 Mbps
CDMA2000 3G
cdma2000 1xEV is an evolution of cdma2000 1X. 1xEV-DO (Data Only) uses a
separate 1.25 MHz carrier for data and offers peak data rates of 2.4 Mbps.
1xEV-DV (Data-Voice) integrates voice and data on the same carrier.
hóçÅÉê~=OMM=jçÇìäÉ=~åÇ=ÅÇã~OMMM
The Kyocera 200 Module implements cdma2000 1X technology. The Module
provides tri-mode operation with AMPS and CDMA in the 800 MHz cellular band
and CDMA PCS in the 1900 MHz PCS band. The Kyocera 200 Module also
supports data rates up to 153.6 Kbps in the reverse and forward links.
pìééçêí=çÑ=bVNN=mÜ~ëÉ=O=mçëáíáçå=içÅ~íáçå
It is a requirement of the FCC that 25% of new handset sales be Automatic
Location Identification (ALI)-capable by December 31, 2001. AFLT (Advanced
Forward Link Trilateration) alone is not accurate enough to meet the accuracy
requirements of the mandate. With AGPS and AFLT, the Kyocera 200 Module
provides the capabilities required for a handset-based voice solution utilizing an
assisting element on the network called the PDE (Position Determination
Equipment). Messaging between the Module and the network is supported by IS801.1. The FCC’s accuracy requirement for a system supporting E911 Phase 2 is
50 meters 67% of the time and 150 meters 95% of the time.
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tÜ~í=áë=íÜÉ=jçÇìäÉ\
The Kyocera 200 Module is intended for use by vendors and manufacturers who
would like to design, build, and sell a wireless product using CDMA technology.
The Module is suited for business applications like remote metering or security,
point of sale, wireless vending, and vehicle tracking. It can support enterprisewide needs like wireless voice and data solutions for automotive telematics and
handheld devices.
The Module’s continuing utility is ensured by advanced features like trimode
capability (AMPS 800 MHz, CDMA digital 800 MHz, and CDMA PCS 1900 MHz),
A-GPS position location capability, and support for IS-2000 data rates.
bãÄÉÇÇÉÇ=jçÇìäÉ
The Kyocera 200 Module is a fully functional wireless phone designed to be
embedded into another piece of hardware. It then provides wireless connectivity
to that device for the purposes of transferring telemetry data and providing
remote monitoring, control, and asset tracking.
The Module provides state-of-the-art wireless data technology to take advantage
of the nationwide footprint of the 1xRTT networks. It works equally well on
both the 800 and 1900 networks and can even communicate via the legacy AMPS
analog network.
We at Kyocera Wireless Corp. have applied our expertise in design and
manufacturing of CDMA phones to the creation of an extremely robust, highperformance module. And because the Kyocera 200 Module is provisioned like a
phone, you can get service for it through CDMA cellular service providers.
tÜ~í=Å~å=áí=Çç\
The CDMA service providers support voice and various levels of data services,
SMS messaging, and GPS location capabilities. Because the Kyocera 200 Module
is designed around the core technology upon which we build our phones, it can
utilize all of those services.
Today, well over 100 million consumers worldwide rely on CDMA for clear,
reliable voice communications and leading-edge data transmission. In North
America CDMA is the dominant wireless technology, and elsewhere it is being
Kyocera Proprietary
Kyocera 200 Module Data Book
29
Module Overview
The Module integrates easily with your device through a board-to-board
connector. Just supply power, attach an antenna, and use the two serial ports to
make and take calls, send and receive SMS messages, get status, and get a GPS
location fix. (It incorporates A-GPS.)
jçÇìäÉ=lîÉêîáÉï
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adopted in Central and South America as well as in Australia, China, and India.
Over 35 countries have either commercial or trial activity ongoing. CDMA will
continue to lead in delivering the most advanced 3G services around the world.
Kyocera Wireless Corp. has approved devices operating on many carriers’
networks, and the list is continually growing.
táää=áí=ïçêâ=áå=ãó=~ééäáÅ~íáçå\
The chances are: Yes.
Please call us so that we can answer your questions concerning the integration of
our technology into yours.
tÜ~í=áë=íÜÉ=éêçÅÉëë=íç=Éî~äì~íÉ=íÜÉ=jçÇìäÉ\
Our Module Development Kit is available for evaluation upon execution of a
nondisclosure agreement. With our Module Development Kit you can begin
working with the Module immediately to try out its capabilities.
tÜ~í=áë=íÜÉ=éêçÅÉëë=íç=Éî~äì~íÉ=íÜÉ=jçÇìäÉ\
Our Module Development Kit is available for evaluation upon execution of a
nondisclosure agreement.
tÜ~í=áë=áåÅäìÇÉÇ=áå=íÜÉ=ÇÉîÉäçéãÉåí=âáí\
We provide everything you need to get started, including extensive
documentation and an interface board for immediate connection to your
computer’s serial ports.
Specific contents of our Module Development Kit are shown in Chapter 12.
eçï=Çç=f=áåíÉÖê~íÉ=íÜÉ=jçÇìäÉ=áåíç=ãó=éêçÇìÅí=Ñêçã=~=ãÉÅÜ~åáÅ~ä=éÉêëéÉÅíáîÉ\
The Module footprint, pinout, and connector specifications are provided in
Chapters 14 and 15.
eçï=Çç=f=áåíÉÖê~íÉ=íÜÉ=jçÇìäÉ=áåíç=ãó=éêçÇìÅí=Ñêçã=~å=ÉäÉÅíêçåáÅ=éÉêëéÉÅíáîÉ\
Integration is made easy with serial ports at TTL levels.
eçï=Çç=f=áåíÉÖê~íÉ=íÜÉ=jçÇìäÉ=áåíç=ãó=éêçÇìÅí=Ñêçã=~=ëçÑíï~êÉ=éÉêëéÉÅíáîÉ\
UART1 uses the IS-707 AT command set. UART2 uses our proprietary KMIP
protocol for enhanced power and flexibility.
tÜ~í=ãìëí=f=Çç=íç=ÖÉí=ãó=Ñáå~ä=éêçÇìÅí=~ééêçîÉÇ=Ñçê=ëÉêîáÅÉ\
There is a certification process for FCC and carrier approval. But we will help
you get through the process quickly and keep the costs to a minimum.
30
Kyocera 200 Module Data Book
Kyocera Proprietary
UOJjUUSOJN=oÉîK=MMP
jçÇìäÉ=lîÉêîáÉï
jçÇìäÉ=íóéÉ
The Kyocera 200 Module provides:
Envelope dimensions 64 mm x 48 mm, 11.4 mm thick
Serial control and data interface
Two sub-miniature RF connectors, 50 ohm
3.6 VDC to 4.2 VDC input
Analog audio interface
CDMA data up to 153.6 Kbps (forward and reverse link) depending on services
available from your carrier
AMPS 800 MHz mode for voice only
Software stacks including ANSI J-STD-008, IS-95, IS-707-A (formerly IS-99 circuit
switched data and fax, IS-657 packet data), and IS-637-A (two-way SMS including
Broadcast SMS capabilities) (as carriers support these features)
IS-2000 (CDMA2000 Release 0) MOB_P_REV6 radio configurations and features as
supported by the MSM5100 and infrastructure
IS-95-A/IS-95-B (J-STD-008) backward compatibility (MOB_P_REV1,3,4,5)
13 Kbps QCELP and EVRC vocoder support, compatible with TTY/TDD with
operations in support of Telecommunications Act, Section 255
IS-683-A support; OTASP and OTAPA
IS-707-A service options (async/fax and packet data)
IS-835 (TCP/IP/PPP) simple IP and mobile IP
Quick Net Connect (single and double stack)
Dual NAM support
Module Overview
jçÇìäÉ=ÄÉåÉÑáíë
The tri-mode CDMA Module provides access to the CDMA wireless networks
without need for engineering a CDMA product from ASIC level up. The time-tomarket advantage saves resources and provides access to the latest wireless data
technology.
The Module is the core technology of KWC’s CDMA phones. It has been
repackaged to provide a ready-to-integrate product. The developer can then
concentrate on the specific application and hardware development application.
The CDMA technology within the Module includes the RF and digital signal
processing, analog audio interface, and serial interface. This is the basis from
which to build a device.
Kyocera Proprietary
Kyocera 200 Module Data Book
31
jçÇìäÉ=lîÉêîáÉï
UOJjUUSOJN=oÉîK=MMP
rëÉê=ÑÉ~íìêÉë
The phone Module provides a complete solution to all functionality of a tri-mode
cellular phone minus the keypad, display, and battery. The Module was
developed to allow the system integrator to build CDMA-based devices and to
allow very fast time to market. Applications might include a complete phone, a
data modem, or an embedded component in a more powerful device that needs
voice and/or data connectivity in a small form factor.
aÉÑáåáíáçåë=çÑ=ëìÄëóëíÉãë
jçÇìäÉ
The Module card includes MSM ASIC, TCXO, synthesizers for frequency
conversion, MSM clocking, necessary filtering to meet performance
requirements, AGC circuits, DC power conditioning circuits, volume control,
Rx circuitry, and memory.
The following figure shows that it is possible to build a full-featured voice phone
with the addition of an external user microprocessor, LCD, keypad, and battery.
This figure also shows a typical module interface.
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Kyocera 200 Module Data Book
Kyocera Proprietary
UOJjUUSOJN=oÉîK=MMP
jçÇìäÉ=lîÉêîáÉï
AUDIO
(MIC, SPEAKER,
CAR, HEADSET)
GPS RF
LCD
CDMA MODULE
INTERFACE
CONNECTOR
USER
INTERFACE
DEVICE
KEYPAD
PHONE RF
I/O DEVICE
POWER
CDMA MODULE
POWER
MANAGEMENT
CELL
CELL TX
BPF
RFT3100
PCS
PCS TX
BPF
FM
SAW
CELL
DUP
DIP
IFR3000
RX IC
PCS RX
PCS
DUP
MSM
CDMA
SAW
VCO
DUAL PLL
GPS
GPS RX
BPF
BPF
Module Overview
PHONE
CELL RX
SW
TCXO
PCS / GPS
RX
MEMORY
The Module card includes the following circuits, with the necessary filtering and
AGC circuits to meet performance requirements.
Kyocera Proprietary
MSM5100 ASIC
Memory
Power management
Audio
Transmit and receive
Kyocera 200 Module Data Book
33
jçÇìäÉ=lîÉêîáÉï
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oc=áåíÉêÑ~ÅÉL~åíÉåå~=éçêí
Two 50 ohm coaxial RF connectors have been provided for Module testing and
integration into an end user device. The OEM developer must provide a 50 ohm
antenna that works in the desired frequency band of operation. Refer to Chapter
11 for more details.
táêÉäÉëë=Ç~í~=ëÉêîáÅÉ
The convergence of wireless telephony with mobile computing is making
wireless data services a reality. Among the services and capabilities that can be
expected are:
Direct access to the Internet
Diagnostic and monitoring applications
Email capabilities for telephones, PDAs, and connected devices
Access to corporate intranets from vehicles and remote sites
a~í~=ëí~åÇ~êÇë=ëìééçêíÉÇ
IS-99 – Circuit Switched Data
IS-657 – Packet Switched Data
IS-707-A – The combined CDMA Data Standard
Quick Net Connect (not a standard)
Full documentation for TIA standards can be obtained from Global Engineering
in Colorado (http://www.global.ihs.com) at 800-854-7179.
oÉÑÉêÉåÅÉë
http://www.3GPP2.com
http://www.tiaonline.com
http://www.cdg.org
http://www.fcc.gov
Carrier requirements must be acquired from each individual operator.
34
Kyocera 200 Module Data Book
Kyocera Proprietary
R
båîáêçåãÉåí~ä péÉÅáÑáÅ~íáçåë
This chapter provides nonoperating and operating environmental requirements
for the CDMA Module and includes specifications for the following:
Temperature
Humidity
Vibration
Mechanical shock
Drop
kçåçéÉê~íáåÖ
qÉãéÉê~íìêÉ
Storage temperature for the CDMA Module shall be -40°C to +85°C. After
exposure of the Module to either temperature extreme for 96 hours and
stabilization at normal conditions, no damage or abnormal operation of
performance resulted.
sáÄê~íáçå
The Module showed no signs of abnormality in operation and performance
criteria after the following swept-sine vibration conditions in three mutually
penpendicular directions: 1.5g acceleration, 5-500-5 Hz sinusoidal vibration,
swept at 1.0 octave per minute.
Environmental Specifica
tions
jÉÅÜ~åáÅ~ä=ëÜçÅâ
The Module showed no signs of abnormality in operation and performance
criteria after the following shock conditions: three shocks in both positive and
negative directions along each of the three orthogonal axes, with input level of
20g at 7 to 11 ms, half-sine waveform.
aêçé
The Module showed no signs of abnormality in operation and performance
criteria after the following drop conditions: Dropped six times, on all six faces,
from 12 cm (4.9 in.) off the ground onto concrete covered with 1/8-inch vinyl
tile.
Kyocera Proprietary
CDMA Module Data Book
35
båîáêçåãÉåí~ä péÉÅáÑáÅ~íáçåë
UOJjUUSOJN=oÉîK=MMP
léÉê~íáåÖ
qÉãéÉê~íìêÉ
The Module shall meet all the operational requirements over the temperature
range of -30°C to +60°C.
eìãáÇáíó
The Module shall meet operational requirements over humidity conditions
ranging from 0% to 85% relative humidity (non-condensing).
sáÄê~íáçå
The Module shall meet operational requirements under the following vibration
conditions:
36
Swept-sine — 1.5g acceleration, 5-500-5 Hz sinusoidal vibration, swept at 0.1
octave per minute
Random — 1.5g rms overall from 5 to 500 Hz, 0.025 power spectral density
from 5 to 50 Hz with 6 dB per octave roll-off from 50 to 500 Hz for 60 minutes
in each axis.
Kyocera 200 Module Data Book
Kyocera Proprietary
S
póëíÉã=péÉÅáÑáÅ~íáçåë
léÉê~íáåÖ=íÉãéÉê~íìêÉ
The Kyocera 200 Module is capable of operating in ambient air inside the user
equipment from -30°C to +60°C (-22°F to +140°F).
aáãÉåëáçåë
The Kyocera 200 Module has “envelope” dimensions of 64.8 mm × 48.2 mm
(56.4 mm with mounting tabs) × 11.4 mm. (See mechanical drawing in Chapter
14.) Other formats may be developed over time.
tÉáÖÜí
The weight of the Kyocera 200 Module, as measured, is 39 grams.
^åíÉåå~ë
The Kyocera 200 Module provides two 50 ohm RF connectors, one for CDMA/
AMPS and one for A-GPS. The antenna matching circuits on the circuit board are
matched to 50 ohms (see chapter 15).
rëÉê=áåíÉêÑ~ÅÉ
The Kyocera 200 Module has a serial interface that provides access to user
interface functions. This interface is capable of the following basic features by
the use of specially formatted information packets.
Basic phone keypad operability
Received Signal Strength Indicator (RSSI) level
Basic phone setting adjustments for carrier selection, roaming, service
programming
Call control, setup, teardown, and maintenance
Volume control
Data services control
System Specifications
fåíÉêÑ~ÅÉ=ÅçååÉÅíçê
Refer to Chapter 14 A for detailed technical information about the interface
connector.
Kyocera Proprietary
Kyocera 200 Module Data Book
37
póëíÉã=péÉÅáÑáÅ~íáçåë
UOJjUUSOJN=oÉîK=MMP
The Kyocera 200 Module User’s Guide, 82-M8863-1, contains detailed technical
information. This document is part of the complete CDMA Module Developer’s
Kit (MDK) and is made available for purchase and license under the terms of
certain module supply or module licensing agreements with the signing of a NonDisclosure Agreement.
38
Kyocera 200 Module Data Book
Kyocera Proprietary
cÉ~íìêÉë
Features
pí~åÇ~êÇ=ÑÉ~íìêÉë
fåÇáÅ~íçêë=~åÇ=Çáëéä~óë
The CDMA Module does not have any visible indicators or displays.
^ìÇáÄäÉ=áåÇáÅ~íçêë
The CDMA Module does not have any audible indicators.
sçäìãÉ=Åçåíêçäë
The Module takes serial port input commands for volume controls and uses these
to set the gain factor in the codec stream. This allows you to control the audio
volume without having to build an external volume control interface.
mçïÉê=çåLçÑÑ
The Module has a power on/off sequence to ensure that the system has been
shut down properly. Refer to the Kyocera 200 Module User’s Guide,
82-M8863-1, for details.
`~ää=éêçÅÉëëáåÖ=ÑÉ~íìêÉë
The Module supports the following features with support packets in the serial
interface. The customer is responsible for implementing the displays or actions
taken from these features.
fåÇáÅ~íçêë=~åÇ=Çáëéä~ó=ëìééçêí=ÑÉ~íìêÉë
Incoming call
Call dropped alert
“Missed call” indicator
^ìÇáÄäÉ=áåÇáÅ~íçêë
The Module supports the following indicators. Where possible, these are output
on the audio output.
Kyocera Proprietary
Service warning-dropped call
Low voltage warning
Voice mail alert
Kyocera 200 Module Data Book
39
cÉ~íìêÉë
UOJjUUSOJN=oÉîK=MMP
Minute alert
SMS alert
hÉóé~Ç=~åÇ=Çá~äáåÖ=ÑÉ~íìêÉë
The Module supports the following features.
Adjustable audio output volume controls
Full dialing keypad simulation
Voice and text access/retrieval
Send key
End key
Phone number storage/memory
DTMF tone length
DTMF mute
Mute
`çåîÉåáÉåÅÉ=ÑÉ~íìêÉë
40
Call timer
Total call timer
Subscriber number display
Reprogrammable memory
Call waiting
Call forwarding – if supported by carrier
Three-party call – if supported by carrier
Clock – requires CDMA service
Caller ID – when available on the CDMA system
Kyocera 200 Module Data Book
Kyocera Proprietary
U
pçÑíï~êÉ=aÉëÅêáéíáçå
pçÑíï~êÉ
Software on the Module controls all aspects of its operation. The latest version is
loaded onto the Module at the factory and is configured in accordance with the
customer’s preferred service provider.
The Phone Support Toolkit (PST), which is included with the Module
Development Kit, is the Windows-based application that enables you to flash
new software to the Module when upgrades become available. The PST also
allows you to view and load a Preferred Roaming List (PRL).
Note
The AT command ‘AT+GMR’ will return the software version number and the PRL verson
number.
The Module is loaded with a PRL file. This file tells the Module how to acquire
the network to which it has been assigned. It serves as an authorization between
carriers for subscribers to utilize another carrier’s coverage area. Documentation
is included with the PST.
fåíÉêÑ~ÅÉ
There are two UARTs (RS232 communication ports) on the Module.
UART 1 is used for communicating with the Module in AT command mode. AT
commands can initiate calls (voice, packet data, asynchronous data) and query
the Module for status and configuration information. Chapter 7 of the Kyocera
200 Module Reference Guide provides a complete AT command listing.
UART 2 is used to communicate with the Module using Kyocera Multiplex
Interface Protocol (KMIP). KMIP is a stop-and-wait protocol using HDLC-like
frames. This interface protocol gives a broad range of Module control including
capability to query the Module; make calls; send, receive, and acknowledge SMS
messages; and access the A-GPS feature of the Module. The Reference Guide fully
details this protocol.
hóçÅÉê~=táêÉäÉëë=mÜçåÉ=pìééçêí=qççäâáí=EáåÅäìÇÉÇ=ïáíÜ=íÜÉ=jahF
The Phone Support Toolkit is a set of Windows-based tools designed to interface
with, control, and test Kyocera Wireless Corp. phones and modules. The Phone
Kyocera Proprietary
Kyocera 200 Module Data Book
41
Software Description
This chapter contains information on the software (Firmware) that runs on the
Module.
pçÑíï~êÉ=aÉëÅêáéíáçå
UOJjUUSOJN=oÉîK=MMP
Support Toolkit server can keep track of multiple phones and modules on local
host machines. System requirements are shown below.
Computer:
Desktop or laptop computer, 166 MHz Pentium®,
running Microsoft® Windows 95, Windows 98,
Windows NT (with Service Pack 3 or later),
Windows 2000, or Windows ME
RAM:
32 MB or greater
Hard drive:
Application requires 20 MB of available space.
Additional space is recommended for storing
backup and download files.
CD-ROM drive:
For installing Kyocera Wireless Phone Support
Toolkit
Video monitor:
Minimum display resolution of 800x600
Serial
communications:
Free serial I/O (COM) ports for up to eight phone
connections
The Phone Support Toolkit currently consists of the server application (which
has no interface) and the following six component (or “client”) applications.
hóçÅÉê~=táêÉäÉëë=mpq=`çåÑáÖìê~íáçå
This client application provides basic phone status display (MIN, ESN, model)
and allows phone control and monitoring.
pÉêîáÅÉ=mêçÖê~ããáåÖ
This application saves service programming data to file, allows download of the
same service programming to multiple phones, and allows download of dialing
plan, carrier plan, carrier information, and roaming list.
pçÑíï~êÉ=açïåäç~Ç
This application downloads software to connected Kyocera Wireless Corp.
phones. It also backs up and restores nonvolatile (NV) memory contents
between downloads.
mÜçåÉ=`çåÑáÖìê~íáçå=qê~åëÑÉê
This application provides personality transfer for Kyocera Wireless Corp. phones
of the same model. It guides you through the transfer process using a wizardbased interface.
pÉêîáÅÉ=`çåëçäÉ
This application allows the service center to record a problem phone’s fault
codes inside the phone itself.
42
Kyocera 200 Module Data Book
Kyocera Proprietary

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