Texas Instruments TCM4300 manual Wide-band Data Demodulator General Information, Wbd

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At the same time, the interrupts DWBDINT and MWBDFINT are asserted. The interrupt rate is 800 μs (8 bits/10 kHz). These interrupts are individually cleared when the WBD register is read by the corresponding processor. They can also be cleared by their respective processor by writing a 1 to the corresponding clear WBD bit.

There is one WBD control register. It can be written to by either processor port.

4.8Wide-band Data Demodulator General Information

The WBDD recovers the transmitter clock from the data stream, which is Manchester encoded, and decodes the data bits. Consideration at the system level is required to ensure data integrity.

The WBD stream carries with it a 10-kHz clock. The Manchester-coded data format contains a transition at the middle of every bit-clock period, which aids in clock recovery. The polarity of the transition is data-dependent. In a typical Manchester-coded WBD stream, a positive voltage for the first half of the data sequence bit time followed by a negative voltage for the second half of the data sequence bit time represents the value 0 in the data sequence. Likewise, a negative voltage followed by a transition to a positive voltage represents the value 1 in the data sequence. This is illustrated in Figure 4±3. The WBD stream can also be seen as the exclusive-OR of the clock and data sequence. The data sequence is in nonreturn to zero (NRZ) format.

	Data	0
	Sequence	0
	Sequence

WBD

Stream

1

1

0

0

1

0

Recovered Clock 10 kHz

Figure 4±3. WBD Manchester-Coded Data Stream

4±9

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Contents Data Manual SLWS010F TCM4300 Data Manual Important Notice Contents Mechanical Data ±1 List of Illustrations List of Tables Features IntroductionTCM4300 Functional Block Diagram Pin Assignments PZ Package TOP ViewVSS FmrxenTerminal Functions Terminal Description NameDsprw DspstrblDvdd DvssMcds MTS1Mclkin McrwScen SintSynclk SyndtaPower Rating Above TA = 25C Dissipation Rating TablePackage Derating FactorRecommended Operating Conditions Power ConsumptionReference Characteristics Terminal Impedance RXIP, RXIN, RXQP, and Rxqn Inputs Avdd = 3 V, 4.5 V, 5Function MIN TYP² MAX Unit Parameter Test Conditions MIN TYP MAX UnitParameter MIN TYP MAX Unit Transmit I and Q Channel OutputsAuxiliary D/A Converters RSSI/Battery A/D Converter Auxiliary D/A Converters Slope AGC, AFC, PwrcontAuxiliary D/A Converters Slope Lcdcontr Nominal LSB Nominal Output VoltageTransmit TX Channel Frequency Response Digital Mode Transmit TX Channel Frequency Response Analog Mode Page VOH VOL Mclkout Timing Requirements see ±1 and NoteMclkout Parameter Alternate MIN MAX Unit McdsMcrw MCA4±MCA0 MCD7±MCD0 Mccsh MccslParameter Alternate MIN MAX Unit Symbol MCA4±MCA0MCA4±MCA0 MCD7±MCD0 Twdho Motorola 16-Bit Read Cycle, MTS 10 = MCA0±MCA4 MCD0±MCD7 Mccsh MccslMCA0±MCA4 Mcrw MCA0±MCA4 MCD0±MCD7 Mccsh Mccsl10% ThR / W ThWA Dspcsl DspstrblDsprw Dspa Dspd±11. TCM4300 to DSP Interface Write Cycle ±12 ±1. TCM4300 Receive Channel Control Signals Control Signal Analog Mode Digital ModeMode Fmvox Iqrxen Fmrxen Data Transfer±2. RXIP, RXIN, RXQP, and Rxqn Inputs Avdd = 3 V, 4.5 V, 5 Transmit Section Modulation error percentage +100 s % ±5. Transmit TX I and Q Channel Outputs±7. Transmit TX Channel Frequency Response Analog Mode Transmit Burst Operation Digital Mode±6. Transmit TX Channel Frequency Response Digital Mode ±1. Power Ramp-Up/Ramp-Down TIming Diagram Transmit I And Q Output Level Wide-Band Data Demodulator±8. Typical Bit-Error-Rate Performance Wbdbw = Wide-band Data Interrupts±9. Bits in Control Register WBDCtrl Parameter Test Conditions MIN MAX Unit Mean CNRWide-band Data Demodulator General Information WBD±11. Auxiliary D /A Converters Slope AGC, AFC, Pwrcont Auxiliary DACs, LCD Contrast Converter±10. Auxiliary D/A Converters RSSI, Battery Monitor ±13. RSSI/Battery A/D ConverterTiming And Clock Generation ±12. Auxiliary D /A Converters Slope LcdcontrClock Generation Speech-Codec Clock GenerationMicrocontroller Clock Sample Interrupt SintPhase-Adjustment Strategy Mclken RCOMclkin Frequency Synthesizer Interface Clkpol Numclks Lowval HighvalMSB/LSB First Syndta±14. Synthesizer Control Fields Name DescriptionPower Control Port 15. External Power Control SignalsName Suggested External Application Reset Synclk Syndta SYNLE1 SYNLE0 SynrdyIqrxen Txen Mode WBD WbdonOUT1 Fmrxen ScenMicrocontroller-DSP Communications DintFifo a Fifo B Cint DSPMicrocontroller Register Map ±16. Microcontroller Register MapAddr Name Category Wide-Band Data/Control Register±17. Microcontroller Register Definitions ±18. WBDCtrl Register BIT Name Function Reset ValueMicrocontroller Status and Control Registers LCD Contrast ±19. MStatCtrl Register BitsLDC D/A Lcden±21. DSP Register Definitions DSP Register Map±20. DSP Register Map Wide-Band Data Registers Base Station Offset RegisterDspcsl TCM4300 Dsprw Dspstrbl Sint Cint Bdint DSP Strb INTDSP Status and Control Registers ±22. DStatCtrl Register BitsReset Power-On ResetInternal Reset State ±23. Power-On Reset Register InitializationIntel Microcontroller Mode Of Operation ±24. Microcontroller Interface Configuration±25. Microcontroller Interface Connections for Intel Mode Microcontroller InterfaceMitsubishi Microcontroller Mode of Operation Motorola Microcontroller Mode of OperationMcrw Mcds IRQ NMI DintCS3 ±32 Mechanical Data PZ S-PQFP-G100Important Notice