Texas Instruments TCM4300 manual Mcrw MCA0±MCA4, MCD0±MCD7 Mccsh Mccsl

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3.8TCM4300 to Microcontroller Interface Timing Requirements (Motorola 8-Bit Read Cycle) (see Figure 3±8 and Note 5)

	PARAMETER	ALTERNATE	MIN	MAX	UNIT
	PARAMETER	SYMBOL	MIN	MAX	UNIT
		SYMBOL

tsu(R/W)	Setup time, read/write MCRW stable before rising edge of	TRW(SU)	0		ns
tsu(R/W)	strobe MCDS	TRW(SU)	0		ns
	strobe MCDS

th(R/W)	Hold time, read/write MCRW stable after falling edge of	TRW(HO)	10		ns
th(R/W)	strobe MCDS	TRW(HO)	10		ns
	strobe MCDS

tsu(RA)	Setup time, read address MCA stable before rising edge of	TRA(SU)	0		ns
tsu(RA)	strobe MCDS	TRA(SU)	0		ns
	strobe MCDS

th(RA)	Hold time, read address MCA stable after falling edge of	TRA(HO)	10		ns
th(RA)	strobe MCDS	TRA(HO)	10		ns
	strobe MCDS

ten(RD)	Enable time, read data on rising edge of strobe MCDS to	TRD(EN)	10		ns
ten(RD)	TCM4300 driving data bus MCD	TRD(EN)	10		ns
	TCM4300 driving data bus MCD

tv(RD)	Valid time, read data on rising edge of strobe MCDS to valid	TRD(DV)		50	ns
tv(RD)	data MCD	TRD(DV)		50	ns
	data MCD

tinv	Data MCD invalid after falling edge of strobe MCDS	TRD(INV)		10	ns
tdis(RD)	Disable time, read data. TCM4300 releases MDS data bus	TRD(DIS)		28	ns
tdis(RD)	after falling edge of strobe MCDS	TRD(DIS)		28	ns
	after falling edge of strobe MCDS

th(CS)	Hold time, chip select MCCSH and MCCSL stable before	TCS(HO)	0		ns
th(CS)	falling edge of strobe MCDS	TCS(HO)	0		ns
	falling edge of strobe MCDS

tsu(CS)	Setup time, chip select MCCSH and MCCSL stable before	TCS(SU)	0		ns
tsu(CS)	rising edge of strobe MCDS	TCS(SU)	0		ns
	rising edge of strobe MCDS

NOTE 5: Timings are based upon Motorola 68HC11D3 (3 MHz) and Motorola 68HC11G5 (2.1 MHz).

MCDS									90%	90%
MCDS									90%	90%
(see Note A)	10%

10%

MCRW

MCA0±MCA4

tsu(R / W) 90%

tsu(RA)

th(R / W)

90%

th(RA)

MCD0±MCD7

MCCSH

MCCSL

tv(RD)	tdis(RD)
ten(RD)	tinv
ten(RD)
90%	90%
th(CS)	tsu(CS)
10%	10%

NOTE A: Chip selection is defined as both MCCS and MCDS active.

Figure 3±8. Microcontroller Interface Timing Requirements

(Motorola 8-Bit Read Cycle, MTS [1:0] = 01)

3±8

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Contents Data Manual SLWS010F TCM4300 Data Manual Important Notice Contents Mechanical Data ±1 List of Illustrations List of Tables Introduction FeaturesTCM4300 Functional Block Diagram Fmrxen Pin AssignmentsPZ Package TOP View VSSTerminal Description Name Terminal FunctionsDvss DsprwDspstrbl DvddMcrw McdsMTS1 MclkinSyndta ScenSint SynclkDerating Factor Power Rating Above TA = 25CDissipation Rating Table PackageReference Characteristics Power ConsumptionRecommended Operating Conditions Parameter Test Conditions MIN TYP MAX Unit Terminal ImpedanceRXIP, RXIN, RXQP, and Rxqn Inputs Avdd = 3 V, 4.5 V, 5 Function MIN TYP² MAX UnitAuxiliary D/A Converters Transmit I and Q Channel OutputsParameter MIN TYP MAX Unit Nominal LSB Nominal Output Voltage RSSI/Battery A/D ConverterAuxiliary D/A Converters Slope AGC, AFC, Pwrcont Auxiliary D/A Converters Slope LcdcontrTransmit TX Channel Frequency Response Digital Mode Transmit TX Channel Frequency Response Analog Mode Page Mclkout Mclkout Timing Requirements see ±1 and NoteVOH VOL MCA4±MCA0 MCD7±MCD0 Mccsh Mccsl Parameter Alternate MIN MAX UnitMcds McrwMCA4±MCA0 Parameter Alternate MIN MAX Unit SymbolMCA4±MCA0 MCD7±MCD0 Twdho MCA0±MCA4 MCD0±MCD7 Mccsh Mccsl Motorola 16-Bit Read Cycle, MTS 10 =MCA0±MCA4 MCD0±MCD7 Mccsh Mccsl Mcrw MCA0±MCA410% ThR / W ThWA Dspa Dspd DspcslDspstrbl Dsprw±11. TCM4300 to DSP Interface Write Cycle ±12 Data Transfer ±1. TCM4300 Receive Channel Control SignalsControl Signal Analog Mode Digital Mode Mode Fmvox Iqrxen Fmrxen±2. RXIP, RXIN, RXQP, and Rxqn Inputs Avdd = 3 V, 4.5 V, 5 Transmit Section ±5. Transmit TX I and Q Channel Outputs Modulation error percentage +100 s %±6. Transmit TX Channel Frequency Response Digital Mode Transmit Burst Operation Digital Mode±7. Transmit TX Channel Frequency Response Analog Mode ±1. Power Ramp-Up/Ramp-Down TIming Diagram Wide-Band Data Demodulator Transmit I And Q Output LevelParameter Test Conditions MIN MAX Unit Mean CNR ±8. Typical Bit-Error-Rate Performance Wbdbw =Wide-band Data Interrupts ±9. Bits in Control Register WBDCtrlWBD Wide-band Data Demodulator General Information±10. Auxiliary D/A Converters Auxiliary DACs, LCD Contrast Converter±11. Auxiliary D /A Converters Slope AGC, AFC, Pwrcont ±12. Auxiliary D /A Converters Slope Lcdcontr RSSI, Battery Monitor±13. RSSI/Battery A/D Converter Timing And Clock GenerationSample Interrupt Sint Clock GenerationSpeech-Codec Clock Generation Microcontroller ClockPhase-Adjustment Strategy Mclkin RCOMclken Frequency Synthesizer Interface Syndta Clkpol Numclks LowvalHighval MSB/LSB FirstName Description ±14. Synthesizer Control FieldsSynclk Syndta SYNLE1 SYNLE0 Synrdy Power Control Port15. External Power Control Signals Name Suggested External Application ResetFmrxen Scen Iqrxen Txen ModeWBD Wbdon OUT1Cint DSP Microcontroller-DSP CommunicationsDint Fifo a Fifo B±16. Microcontroller Register Map Microcontroller Register Map±17. Microcontroller Register Definitions Wide-Band Data/Control RegisterAddr Name Category Microcontroller Status and Control Registers BIT Name Function Reset Value±18. WBDCtrl Register Lcden LCD Contrast±19. MStatCtrl Register Bits LDC D/A±20. DSP Register Map DSP Register Map±21. DSP Register Definitions DSP Strb INT Wide-Band Data RegistersBase Station Offset Register Dspcsl TCM4300 Dsprw Dspstrbl Sint Cint Bdint±22. DStatCtrl Register Bits DSP Status and Control Registers±23. Power-On Reset Register Initialization ResetPower-On Reset Internal Reset StateMicrocontroller Interface Intel Microcontroller Mode Of Operation±24. Microcontroller Interface Configuration ±25. Microcontroller Interface Connections for Intel ModeIRQ NMI Dint Mitsubishi Microcontroller Mode of OperationMotorola Microcontroller Mode of Operation Mcrw McdsCS3 ±32 PZ S-PQFP-G100 Mechanical DataImportant Notice