Kyocera KWC-M200 Transmitter Module User Manual Kyocera 200 Module Data Book

Kyocera Communications, Inc Transmitter Module Kyocera 200 Module Data Book

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Module Developer’sKitKyocera Proprietary Kyocera 200 Module Data Book 6112Module Developer’sKitThe Module Developer’s Kit (MDK) is used to assist in development of end-user applications for the CDMA Module. The MDK facilitates integration through the serial and digital codec pulse code modulation (PCM) interface options. Contents of the MDK are illustrated below.Module and Travel Charger* Audio Headset*9-pin RS 232Cable Assembly* Module DocumentationCD-ROMMMCX-to-SMAAdapter (qty: 2)* Kit may include alternate components.Interface Board(qty: 2)

62 Kyocera 200 Module Data Book Kyocera ProprietaryModule Developer’sKit 82-B7907-1 Rev. 005It should be clearly understood that the software in the MDK (specifically, the code in the Kyocera 200 Module User’s Guide, 82-B7908-1) is provided for sample purposes only. The MDK software is not warranted as the basis for a deployed implementation.

Warranty and Product SupportKyocera Proprietary Kyocera 200 Module Data Book 6313Warranty and Product SupportThe KWC CDMA Module Developer’s Kit arrives having been tested as described in the Module Testing & Integration chapter. Testing should be duplicated at the integrator’s/customer’s facility. KWC can provide advice as to the type of test equipment needed. This Module testing should be separate from the testing to be performed on the end product (with the Module installed). KWC offers a warranty for the CDMA Module, from the date of shipment from KWC’s facility. This warranty provides the customer with a remedy for defective Modules within the warranty period and subject to all other warranty provisions. KWC requests that the integrator retain several Modules as backup in case of failure. It is assumed that you maintain a first level of returned Module testing in your QA department prior to returning the Module to KWC. This alleviates the question of whether the failure is in the Module or the end product. “No trouble found” (NTF) occurrences on Modules returned to KWC will result in fees. KWC reserves the right, at its own discretion, to repair, replace, or issue a trade credit for any defective Module under warranty. Warranty repair excludes warranty claims on products that have been subject to misuse, neglect, improper storage or installation, or that have been repaired, modified, or altered by a facility other than a KWC-authorized service center or a KWC-certified repair center. In all cases, the final testing of the KWC line is the sole controlling determination of Module performance.

Mechanical SpecificationsMechanical SpecificationsMechanical SpecificationsMechanical SpecificationsMechanical SpecificationsKyocera Proprietary Kyocera 200 Module Data Book 6514Mechanical SpecificationsMating connectorsThe following connectors mate with the Module.lModule Interface Connector MateManufacturer: MOLEX Inc., www.molex.comManufacturer’s Part Number: 54230-0509Kyocera MCN: 449-24545-0509lModule RF Connector MateStandard MMCX plug, available fromseveral manufacturers including Amp,Radiall, and TelegartnerDrawings The following technical drawings are included in this chapter:lLand pattern and pin assignment for Module interface mating connectorlMounting hole and land pattern placement guidelines with recommended mounting hardwarelModule overall dimensioned drawinglModule exploded view

66 Kyocera 200 Module Data Book Kyocera ProprietaryMechanical Specifications 82-B7907-1 Rev. 005 Land pattern and pin assignment for the Module interface mating connector

Mechanical SpecificationsMechanical SpecificationsMechanical SpecificationsMechanical SpecificationsMechanical SpecificationsKyocera Proprietary Kyocera 200 Module Data Book 6782-B7907-1 Rev. 005 Mechanical Specifications Mounting hole and land pattern placement guidelines

68 Kyocera 200 Module Data Book Kyocera ProprietaryMechanical Specifications 82-B7907-1 Rev. 005 Module outside dimensions (mm)

Mechanical SpecificationsMechanical SpecificationsMechanical SpecificationsMechanical SpecificationsMechanical SpecificationsKyocera Proprietary Kyocera 200 Module Data Book 6982-B7907-1 Rev. 005 Mechanical Specifications Module exploded view

70 Kyocera 200 Module Data Book Kyocera ProprietaryMechanical Specifications 82-B7907-1 Rev. 005

Assignments and Signal DefinitionsAssignments and Signal DefinitionsAssignments and Signal DefinitionsAssignments and Signal DefinitionsAssignments and Signal DefinitionsKyocera Proprietary Kyocera 200 Module Data Book 7115Assignments and Signal Definitions 50-pin Module interface connector pin assignments (viewed looking down on connector)Signal definitions of 50-pin Module interface connectorPin # Signal Name Comment Modem Signal Level1VPH_PWR Power to the CDMA transceiver 3.6 VDC min to 4.2 VDC max Power input(6)2GND Signal and power return GROUND3VPH_PWR Power to the CDMA transceiver 3.6 VDC min to 4.2 VDC max Power input(6)4GND Signal and power return GROUND5VPH_PWR Power to the CDMA transceiver 3.6 VDC min to 4.2 VDC max Power input(6)6GND Signal and power return GROUND7VPH_PWR Power to the CDMA transceiver 3.6 VDC min to 4.2 VDC max Power input(6)8GND Signal and power return GROUND9VPH_PWR Power to the CDMA transceiver 3.6 VDC min to 4.2 VDC max Power input(6)10 GND Signal and power return GROUND11 VEXT# Indicates that external power is being used 0 to VPH_PWR max Analog control12 N/C No connection13 N/C No connection14 LED_EN# Enable external LED 0 to VPH_PWR max Analog control15 N/C No connection16 LED_DRV External LED drive 10 mA LED drive Analog output17 N/C No connection

72 Kyocera 200 Module Data Book Kyocera ProprietaryAssignments and Signal Definitions 82-B7907-1 Rev. 00518 XCVR_DET Indicates that transceiver is on Digital output(2)19 N/C No connection20 N/C No connection21 XCVR_EN# CDMA transceiver primary power enable 0 to VPH_PWR max Analog input22 MSM_DP_TXD UART1 - transmit data VOH(min) = 2.4V,VOL(max) = 0.5V Digital output(1)23 MSM_DP_RXD UART1 - receive data VIH(min) = 1.9V,VIL(max) = 0.9V Digital input(2)24 MSM_DP_CTS# UART1 - clear to send VIH(min) = 1.9V,VIL(max) = 0.9V Digital input(2)25 MSM_DP_RTS# UART1 - ready for receive VOH(min) = 2.4V,VOL(max) = 0.5V Digital output(1)26 MSM_DP_DTR# UART1 - data terminal ready VIH(min) = 1.9V,VIL(max) = 0.9V Digital input(2,3)27 MSM_DP_RI# UART1 - ring indicator VOH(min) = 2.4V,VOL(max) = 0.5V Digital output(1)28 MSM_DP_DCD# UART1 - data carrier detect VOH(min) = 2.4V,VOL(max) = 0.5V Digital output(1)29 HS_PRES# Headset detection input to MSM VIH(min) = 1.9V,VIL(max) = 0.9V Digital input(2,3)30 GND Signal and power return GROUND31 MSM_DP_TXD2 UART2 - transmit data VOH(min) = 2.4V,VOL(max) = 0.5V Digital output(1)32 MSM_DP_RXD2 UART2 - receive data VIH(min) = 1.9V,VIL(max) = 0.9V Digital input(2)33 MSM_DP_CTS2# UART2 - clear to send VIH(min) = 1.9V,VIL(max) = 0.9V Digital input(2)34 MSM_DP_RTS2# UART2 - ready for receive VOH(min) = 2.4V,VOL(max) = 0.5V Digital output(1)35 GND Signal and power return GROUND36 CAR_SCL Analog Carkit SCL line VOH(min) = 2.4V,VOL(max) = 0.5V Input/output37 CAR_SDA Analog Carkit SDA line VOH(min) = 2.4V,VOL(max) = 0.5V Input/output(1)38 CAR_MIC+ Analog carkit microphone input VIH(min) = 1.9V,VIL(max) = 0.9V Analog input(2)39 CAR_SPKR+ Analog Carkit Speaker output VOH(min) = 2.4V,VOL(max) = 0.5V Analog output(1)40 GND Signal and power return GROUND41 HS_SPEAKER Headset speaker audio output 1.5Vpp, 8.8mW into 32 ohm load Analog output(1)42 GND Signal and power return GROUNDSignal definitions of 50-pin Module interface connectorPin # Signal Name Comment Modem Signal Level

Assignments and Signal DefinitionsAssignments and Signal DefinitionsAssignments and Signal DefinitionsAssignments and Signal DefinitionsAssignments and Signal DefinitionsKyocera Proprietary Kyocera 200 Module Data Book 7382-B7907-1 Rev. 005 Assignments and Signal Definitions43 MAIN_MIC+ Main microphone positive input 1.8VDC nominal, -3Mv rms Electret microphone input(4)44 MAIN_MIC- Handset microphone negative terminal GROUND45 GND Signal and power return GROUND46 EAR_SPKR+ Main speaker positive audio output 1.2VDC nominal,3V pp with pin 47 Bridge amp output(5)47 EAR_SPKR- Main speaker negative audio terminal 1.2VDC nominal,3V pp with pin 4648 HS_MIC+ Headset microphone input 1.8VDC nominal, ~3Mv rms Electret microphone input(4)49 GND Ground for headset microphone GROUND50 LSPKR_ON Loudspeaker amp control output VOH(min) = 2.4V,VOL(max) = 0.5V Digital output(2)Notes:1. Input connected directly to MSM. Do not exceed V(max) of 3.1V; damage to MSM may result.2. Output connected directly to MSM. Do not exceed V(max) of 2.8V; damage to MSM may result.3. 10K ohm pull-up resistor inside Module.4. Input for standard electret microphone. 1.8V supplied via 2.2K ohm resistor inside Module.5. Pins 46 and 47 are bridge (differential) amp outputs capable of driving 35 mW into a 32 ohm speaker connected between these pins.6. 1200 mA required for full analog transmission capabilities.Signal definitions of 50-pin Module interface connectorPin # Signal Name Comment Modem Signal Level

74 Kyocera 200 Module Data Book Kyocera ProprietaryAssignments and Signal Definitions 82-B7907-1 Rev. 005

Module Developer’s Kit SchematicModule Developer’s Kit SchematicModule Developer’s Kit SchematicModule Developer’s Kit SchematicModule Developer’s Kit SchematicKyocera Proprietary Kyocera 200 Module Data Book 7516Module Developer’s Kit SchematicThis chapter contains schematic views of the current Module Developer’s Kit (MDK), which is identified on the board as K4021. Kyocera Wireless Corp. has also produced limited quantities of an earlier version, identified as K4020. Differences between the two are listed below.lThe K4020 does not contain J14, VEXT_EN jumper.lIn the schematic for K4020, signal LED_EN# was labeled LED_EN.lIn the K4020, DS3 cathode is connected to ground and anode is connected to LED_DRV.lIn the K4020, R10 is 1.1 KΩ.

76 Kyocera 200 Module Data Book Kyocera ProprietaryModule Developer’s Kit Schematic 82-B7907-1 Rev. 005

Module Developer’s Kit SchematicModule Developer’s Kit SchematicModule Developer’s Kit SchematicModule Developer’s Kit SchematicModule Developer’s Kit SchematicKyocera Proprietary Kyocera 200 Module Data Book 7782-B7907-1Rev. 005 Module Developer’s Kit Schematic

78 Kyocera 200 Module Data Book Kyocera ProprietaryModule Developer’s Kit Schematic 82-B7907-1 Rev. 005

How to Set up Data CallsKyocera Proprietary Kyocera 200 Module Data Book 7917How to Set up Data CallsThis chapter explains how to set up your Module to make data calls using Microsoft Windows. Understanding these methods may help you integrate the Module with your Remote System.The Module can make three types of data calls:lAsync data callsl1X packet data servicelQuickNet Connect (a packet-like data service)Getting started1. Verify that you have correctly set up your Module.2. Ensure that Windows Dial-Up Networking or other point-to-point protocol (PPP) compatible dial-up software is installed on your computer.3. Ensure that terminal emulation software such as HyperTerminal or ProComm™ is installed on your computer.4. Connect a serial cable from the UART 1 on the CDMA Module Developer’s Kit interface board to an enabled communications port of your computer.Installing the Kyocera Wireless serial modem driverFrom the CD-ROM, run the program Kyocera-Module.exe. The INF folder will automatically be copied to your hard drive and placed in the Windows folder.Setting up your Module as a wireless modem1. Open the Windows Control Panel and double-click the Modems or Phone and Modem Options icon.2. Click Add to add a new modem. If you have a PCMCIA card slot, click Other and proceed to step 3. If you do not have a PCMIA card slot, go to step 3.3. Click Don’t detect my modem. Select Kyocera Wireless Corp. from the manufacturer list and select Kyocera CDMA High-Speed Wireless Modem.4. Click Next.5. Assign the modem to your configured COM port, then close Modem Properties.

80 Kyocera 200 Module Data Book Kyocera ProprietaryHow to Set up Data Calls 82-B7907-1 Rev. 005Using terminal emulation software to talk to the modem in AT command mode Set up the program for a new connection using the Kyocera CDMA High-Speed Wireless Modem driver or by pointing to the serial port to which the Module is connected with the following configuraiton.Send AT commands to the Module to test the connection. The Module should respond to an ATZ command with OK.Making an async data call using terminal emulation software1. Open the connection in the terminal emulation software.2. Use the ATDT command to dial the phone number of another modem.Making an async data call using dial-up networking1. Open Dial-up Networking.2. Double-click the Make New Connection icon.3. Type a name for your new connection.4. Select the installed modem and click Next.5. Type the area code and telephone number of your ISP and click Next, then Finish.6. Right-click the New icon and select Properties.7. From the Properties menu, configure Server Types for the appropriate options and protocols. To increase connection speed, uncheck Log on to network, NetBEUI, and IPX/SPX/Compatible.Making a QuickNet Connect data call1. Open the terminal mode of your terminal emulation software. Enter AT$QCQNC=1 and QC$QCMDR=2 for a QuickNet Connect call. Alternatively, configure the connection to bring up a terminal screen before dialing to enter the AT commands.2. Open Dial-Up Networking.Bits per second: The default COM PORT SPEED of UART 1 is 115,200 bpsData bits: 8Parity: NoneStop bits: 1Flow control: Hardware

How to Set up Data CallsKyocera Proprietary Kyocera 200 Module Data Book 8182-B7907-1 Rev. 005 How to Set up Data Calls3. Double-click the Make New Connection icon.4. Type a name for your new connection.5. Select your installed modem, then click Next.6. Leave the area code blank and type #777 as the telephone number. Click Next, then Finish.7. Right-click the New icon and select Properties.8. Click Server Types and check TCP/IP. Uncheck Log on to network, NetBEUI, and IPX/SPX/Compatible.9. You will need to get the name and password from the service provider to authenticate to their network.Making a 1XRTT packet data call1. Open the terminal mode of your terminal emulation software. Enter AT$QCQNC=0 and QC$QCMDR=3 for a 1XRTT call. Alternatively, configure the connection to bring up a terminal screen before dialing to enter the AT commands.2. Open Dial-Up Networking.3. Double-click the Make New Connection icon.4. Type a name for your new connection.5. Select your installed modem, then click Next.6. Leave the area code blank and type #777 as the telephone number. Click Next, then Finish.7. Right-click the New icon and select Properties.8. Click Server Types and check TCP/IP. Uncheck Log on to network, NetBEUI, and IPX/SPX/Compatible.9. You will need to get the name and password from the service provider to authenticate to their network.Helpful hintslEnsure that the phone or CDMA Module is turned on and the cables are firmly connected to a COM port.lEnsure that the computer COM port is enabled and that no other equipment is attached to the COM port.lEnsure that no other application that uses the COM port is running.

82 Kyocera 200 Module Data Book Kyocera ProprietaryHow to Set up Data Calls 82-B7907-1 Rev. 005TroubleshootingHow do I get a phone number for my CDMA Module?Contact your CDMA service provider for details. Once you have a phone number, use the Phone Support Toolkit to program it into your Module.How can I obtain technical support?You can call us in the U.S. and Canada at 888-236-2746 and outside North America at 858-882-1401. Our email address is module-support@kyocera-wireless.com.