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ADSP-21MSP59 Datenblatt(PDF) 4 Page - Analog Devices |
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ADSP-21MSP59 Datenblatt(HTML) 4 Page - Analog Devices |
4 / 40 page REV. 0 –4– ADSP-21msp58/59 Pin # Group of Input/ Name Pins Output Function IRQ0 (RFS1) 1 I External interrupt request #0 IRQ1 (TFS1) 1 I External interrupt request #1 SCLK1 1 O Programmable clock output FI (DR1) 1 I Flag input pin FO (DT1) 1 O Flag output pin FL0 1 O General purpose flag output pin VDD 4 Digital power supply pins GND 5 Ground pins PWD 1 I Powerdown pin Analog Pins VINNORM 1 I Input terminal of the NORM amplifier for the encoder section (ADC) VINAUX 1 I Input terminal of the AUX amplifier for the encoder section (ADC) Decouple 1 I Ground reference of the NORM and AUX amplifiers for the encoder section (ADC) VOUTP 1 O Noninverting output terminal of the differential amplifier from the decoder section (DAC) VOUTN 1 O Inverting output terminal of the differential amplifier from the decoder section (DAC) VREF 1 O Output voltage reference REF_ FILTER 1 O Voltage reference external by- pass filter node VCC 1 Analog power supply GNDA 2 Analog ground Host Interface Port The ADSP-21msp58/59 host interface port (HIP) is a parallel I/O port that allows for an easy connection to a host processor. Through the HIP, the ADSP-21msp58/59 can be used as a memory-mapped peripheral to a host computer. The HIP can be thought of as an area of dual-ported memory, or mailbox reg- isters, that allows communication between the computational core of the ADSP-21msp58/59 and the host computer. The host interface port is completely asynchronous. The host processor can write data into the HIP while the ADSP- 21msp58/59 is operating at full speed. The HIP can be configured with the following pins: • BMODE (when MMAP = 0) determines whether the ADSP- 21msp58/59 boots from the host processor (through the HIP) or external EPROM (through the data bus). • HMD0 configures the bus strobes as separate read and write strobes, or a single read/write select and a host data strobe. • HMD1 selects separate address (3-bit) and data (8-bit) buses, or a multiplexed 8-bit address/data bus with address latch enable. Tying these pins to appropriate values configures the ADSP- 21msp58/59 for straight-wire interface to a variety of industry- standard microprocessors and microcomputers. When the host processor writes an 8-bit value to the HIP, the upper eight bits of the HIP registers are all zeros. For additional information, refer to the ADSP-2100 Family User’s Manual, Chapter 7, for information about 8-bit configuration. HIP Operation The HIP contains six data registers (HDR5-0) and two status registers (HSR7-6) with an associated HMASK register for masking interrupts from individual HIP data registers. The HIP data registers are memory-mapped in the internal data memory of the ADSP-21msp58/59. HIP transfers can be managed using either interrupts or polling. These registers are shown in the sec- tion “ADSP-21msp58/59 Registers.” The two status registers provide status information to both the ADSP-21msp58/59 and the host processor. HSR7 contains a software reset bit that can be set by the ADSP-21msp58/59 and the host. The HIP allows a software reset to be performed by the host processor. The internal software reset signal is asserted for five ADSP-21msp58/59 cycles. The HIP generates an interrupt whenever an HDR register re- ceives data from a host processor write. It also generates an in- terrupt when the host processor has performed a successful read of any HDR. The read/write status of the HDRs is also stored in the HSR registers. The HMASK register bits can be used to mask the generation of read or write interrupts from individual HDR registers. Bits in the IMASK register enable and disable all HIP read interrupts or all HIP write interrupts. So, for example, a write to HDR4 will cause an interrupt only if both the HDR4 Write bit in HMASK and the HIP Write interrupt enable bit in IMASK are set. The HIP provides a second method of booting the ADSP- 21msp58/59 in which the host processor loads instructions into the HIP. The ADSP-21msp58/59 automatically transfers the data, in this case opcodes, to internal program memory. The BMODE pin determines whether the ADSP-21msp58/59 boots from the host processor through the HIP or from external EPROM over the data bus. Interrupts The interrupt controller lets the processor respond to interrupts and reset with a minimum of overhead. The ADSP-21msp58/59 provides up to three external interrupt input pins, IRQ0, IRQ1, and IRQ2. IRQ2 is always available as a dedicated pin; SPORT1 may be reconfigured for IRQ1 and IRQ0 and the flag. The ADSP-21msp58/59 also supports internal interrupts from the timer, the host interface port, the serial ports, the analog in- terface, and the powerdown control circuit. The interrupts are internally prioritized and individually maskable (except for powerdown and RESET). The input pins can be programmed for either level- or edge-sensitivity. The priorities and vector ad- dresses for the interrupts are shown in Table II; the interrupt registers are shown in Figure 2. |
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Ähnliche Beschreibung - ADSP-21MSP59 |
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