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TMSDVC5402PGE100G4 Datasheet(PDF) 8 Page - Texas Instruments |
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TMSDVC5402PGE100G4 Datasheet(HTML) 8 Page - Texas Instruments |
8 / 72 page TMS320VC5402 FIXEDPOINT DIGITAL SIGNAL PROCESSOR SPRS079G − OCTOBER 1998 − REVISED OCTOBER 2008 8 POST OFFICE BOX 1443 • HOUSTON, TEXAS 77251−1443 Terminal Functions (Continued) TERMINAL NAME DESCRIPTION TYPE† TERMINAL NAME DESCRIPTION TYPE† INITIALIZATION, INTERRUPT, AND RESET OPERATIONS (CONTINUED) RS I Reset. RS causes the digital signal processor (DSP) to terminate execution and causes a reinitialization of the CPU and peripherals. When RS is brought to a high level, execution begins at location 0FF80h of program memory. RS affects various registers and status bits. MP/MC I Microprocessor/microcomputer mode select. If active low at reset, microcomputer mode is selected, and the internal program ROM is mapped into the upper 4K words of program memory space. If the pin is driven high during reset, microprocessor mode is selected, and the on-chip ROM is removed from program space. This pin is only sampled at reset, and the MP/MC bit of the processor mode status (PMST) register can override the mode that is selected at reset. MULTIPROCESSING SIGNALS BIO I Branch control. A branch can be conditionally executed when BIO is active. If low, the processor executes the conditional instruction. For the XC instruction, the BIO condition is sampled during the decode phase of the pipeline; all other instructions sample BIO during the read phase of the pipeline. XF O/Z External flag output (latched software-programmable signal). XF is set high by the SSBX XF instruction, set low by the RSBX XF instruction or by loading ST1. XF is used for signaling other processors in multiprocessor configurations or used as a general-purpose output pin. XF goes into the high-impedance state when OFF is low, and is set high at reset. MEMORY CONTROL SIGNALS DS PS IS O/Z Data, program, and I/O space select signals. DS, PS, and IS are always high unless driven low for accessing a particular external memory space. Active period corresponds to valid address information. DS, PS, and IS are placed into the high-impedance state in the hold mode; the signals also go into the high-impedance state when OFF is low. MSTRB O/Z Memory strobe signal. MSTRB is always high unless low-level asserted to indicate an external bus access to data or program memory. MSTRB is placed in the high-impedance state in the hold mode; it also goes into the high-impedance state when OFF is low. READY I Data ready. READY indicates that an external device is prepared for a bus transaction to be completed. If the device is not ready (READY is low), the processor waits one cycle and checks READY again. Note that the processor performs ready detection if at least two software wait states are programmed. The READY signal is not sampled until the completion of the software wait states. R/W O/Z Read/write signal. R/W indicates transfer direction during communication to an external device. R/W is normally in the read mode (high), unless it is asserted low when the DSP performs a write operation. R/W is placed in the high-impedance state in hold mode; it also goes into the high-impedance state when OFF is low. IOSTRB O/Z I/O strobe signal. IOSTRB is always high unless low-level asserted to indicate an external bus access to an I/O device. IOSTRB is placed in the high-impedance state in the hold mode; it also goes into the high-impedance state when OFF is low. HOLD I Hold. HOLD is asserted to request control of the address, data, and control lines. When acknowledged by the ’C54x, these lines go into the high-impedance state. HOLDA O/Z Hold acknowledge. HOLDA indicates that the 5402 is in a hold state and that the address, data, and control lines are in the high-impedance state, allowing the external memory interface to be accessed by other devices. HOLDA also goes into the high-impedance state when OFF is low. † I = input, O = output, Z = high impedance, S = supply ‡ All revisions of the 5402 can be operated with an external clock source, provided that the proper voltage levels be driven on the X2/CLKIN pin. It should be noted that the X2/CLKIN pin is referenced to the device 1.8V power supply (CVDD), rather than the 3V I/O supply (DVDD). Refer to the recommended operating conditions section of this document for the allowable voltage levels of the X2/CLKIN pin. § Although this pin includes an internal pulldown resistor, a 470-Ω external pulldown is required. If the TRST pin is connected to multiple DSPs, a buffer is recommended to ensure the VIL and VIH specifications are met. |
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