CDMRF102 TCU Phone Module Component Technical Specification Manual Ver. 0.1 Aug. 14.
Table of Contents CDMRF102..................................................................................................................................................... 1 TCU PHONE MODULE.................................................................................................................................. 1 1 INTRODUCTION / OVERVIEW .................................................................................................................. 6 1.1 QSC 6055 Chipset .....................
4.3 Current Draw ....................................................................................................................................... 15 4.4 Output Power ...................................................................................................................................... 16 4.5 Audio Interface.................................................................................................................................... 16 4.5.1 PCM Audio...............................
1 INTRODUCTION / OVERVIEW 1.1 QSC6055 Chipset The QSC60x5 family of devices represents the next generation of chipset architecture and enhancements for the QCT value and multimedia tiers of products. The QSC60x5 family includes the QSC6055 and QSC6065 devices (supporting CDMA2000 1x voice and data, and Simultaneous-GPS (S-GPS)), the QSC6075 device (adding CDMA2000 EV-DO rel. 0 support) and the QSC6085 device (adding CDMA2000 EV-DO rev. A support).
■ DC power reduction using innovative techniques, such as the QUALCOMM IntelliCeiver™ technology and PA bypassing 1.1.1 QSC6055 Features ■ Modem microprocessor – a low-power, high-performance RISC microprocessor core running at 192 MHz and featuring the ARM926EJ-S™ CPU and Jazelle™ accelerator circuit from ARM® Limited. ■ Modem digital signal processor (mDSP) – the low-power, high-performance QDSP4u8™ targeting 85 MHz.
1.2 Mobile Standards Service Provisioning- OTASP Parameter Administration - OTAPA Caller ID Call Hold & Call Waiting Three-Way Calling E911 Location Determination CDMA 1xRTT Packet Data (153 Kbps forward and reverse) Mobile IP Enhanced Variable Rate Codec-B (EVRC-B) Enhanced Variable Rate Codec (EVRC) EVRC TTY TDD Extension SMS (MT,MO) 1.
1.4 Development Tools for the Phone Module 1.4.1 LT Box 2 MECHANICAL DESCRIPTION 2.1 Phone Module Mechanical Outline 2.
2.2.1 I/O Connector Drawing and Supplier Part Number This connector is placed on the phone module 2.2.2 I/O Connector Electrical Characteristics I 2.2.2.1 I/O Connector Pin Assignment, I/O Interface, and Circuit Diagrams PIN # J1-1 PIN TYPE SIGNAL NAME SIGNAL DESCRIPTION Phone_PWR 3.8 volts supply voltage to phone module SIGNAL TYPE DC input. SIGNAL VOLTAGE LEVEL Min: 3.61V Max: 3.99V IMPEDANCE TCU NA CURREN T PHON E Max: NA ANALOG I/O INTERFACE OR COMMENTS TCU SIDE DIGITAL ANALOG I 1.
PIN # J1-7 PIN TYPE SIGNAL NAME SIGNAL DESCRIPTION 2.6V +/- 2% Phone_VRE supply output from F NAD to TCU SIGNAL SIGNAL IMPEDANCE TYPE VOLTAGE TCU LEVEL DC supply output Min.:2.548V. NA Max:2.652V PHON E NA CURREN T ANALOG I/O INTERFACE OR Analog COMMENTS TCU SIDE DIGITAL 10mA PHONE SIDE O VREG_MSMP 2.6V : Phone_VREF is routed to pullups on RESET, UART, PCM, lines J1-8 DNAD_RX CAIT Receive Data from TCU to Phone. Digital input 10K VHigh: 0.65*Vdd_P to Vdd_p+0.
3 OPERATING TEMPERATURE AND STORAGE 3.1 Temperature 3.1.1 Storage Temperature The phone module shall be capable of being stored at -40C ~ 85C without any damage. 3.1.2 Operating Temperature The phone module shall operate within specification from -30C – 85C 4 ELECTRICAL INTERFACE Phone / TCU System Mechanization 4.1 Design Guidelines 4.1.1 Component Derating 4.1.1.
4.3.2 Standby Current Drain. Band Celluar (ch 384) Slot Mode SLOT1 SLOT2 Current [mA] 3.78 mA 2.63 mA PCS (ch 600) SLOT1 SLOT2 3.76 mA 2.59 mA 4.3.3 Off current drain. -Under 100uA 4.4 Output Power The phone output power is measured at the end of phone module antenna connector using the RF power meter. The power level of the phone module is controlled by the base station and the range of the power level is varied from Min output power to Max output power that is defined in the table below.
4.6.1.
4.6.1.3 QSC Receive Timing 4.6.1.4 MSM Transmitting Timing 4.6.2 UART Data Interface QSC6055 devices are capable of providing up to two universal asynchronous receiver transmitter (UART) ports. Each UART communicates with serial data ports that conform to the RS-232 interface protocol. With a properly written and user-defined download program, the UART can be used as the handset’s serial data port for test and debug, and can support additional interface functions such as an external keypad or ringer.
Notice OEM integrators and installers are instructed that the phrase. This device contains transmitter FCC ID: O6Y-CDMRF102 must be placed on the outside of the host. Warning: Exposure to Radio Frequency Radiation The radiated output power of this device is far below the FCC radio frequency exposure limits. Nevertheless, the device should be used in such a manner that the potential for human contact during normal operation is minimized.