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ADSP-TS202SABP-050 Datasheet(PDF) 9 Page - Analog Devices |
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ADSP-TS202SABP-050 Datasheet(HTML) 9 Page - Analog Devices |
9 / 48 page ADSP-TS202S Rev. C | Page 9 of 48 | December 2006 LINK PORTS (LVDS) The DSP’s four full-duplex link ports each provide additional four-bit receive and four-bit transmit I/O capability, using low voltage, differential-signal (LVDS) technology. With the ability to operate at a double data rate—latching data on both the rising and falling edges of the clock—running at 500 MHz, each link port can support up to 500M bytes per second per direction, for a combined maximum throughput of 4G bytes per second. The link ports provide an optional communications channel that is useful in multiprocessor systems for implementing point- to-point interprocessor communications. Applications can also use the link ports for booting. Each link port has its own triple-buffered quad-word input and double-buffered quad-word output registers. The DSP’s core can write directly to a link port’s transmit register and read from a receive register, or the DMA controller can perform DMA transfers through eight (four transmit and four receive) dedi- cated link port DMA channels. Each link port direction has three signals that control its opera- tion. For the transmitter, LxCLKOUT is the output transmit clock, LxACKI is the handshake input to control the data flow, and the LxBCMPO output indicates that the block transfer is complete. For the receiver, LxCLKIN is the input receive clock, LxACKO is the handshake output to control the data flow, and the LxBCMPI input indicates that the block transfer is com- plete. The LxDATO3–0 pins are the data output bus for the transmitter and the LxDATI3–0 pins are the input data bus for the receiver. Applications can program separate error detection mechanisms for transmit and receive operations (applications can use the checksum mechanism to implement consecutive link port transfers), the size of data packets, and the speed at which bytes are transmitted. TIMER AND GENERAL-PURPOSE I/O The ADSP-TS202S processor has a timer pin (TMR0E) that generates output when a programmed timer counter has expired and four programmable general-purpose I/O pins (FLAG3–0) that can function as either single-bit input or out- put. As outputs, these pins can signal peripheral devices; as inputs, they can provide the test for conditional branching. RESET AND BOOTING The ADSP-TS202S processor has three levels of reset: • Power-up reset—after power-up of the system (SCLK, all static inputs, and strap pins are stable), the RST_IN pin must be asserted (low). • Normal reset—for any chip reset following the power-up reset, the RST_IN pin must be asserted (low). • DSP-core reset—when setting the SWRST bit in EMUCTL, the DSP core is reset, but not the external port or I/O. For normal operations, tie the RST_OUT pin to the POR_IN pin. After reset, the ADSP-TS202S processor has four boot options for beginning operation: • Boot from EPROM. • Boot by an external master (host or another ADSP-TS202S processor). •Boot by link port. • No boot—start running from memory address selected with one of the IRQ3–0 interrupt signals. See Table 2. Using the “no boot” option, the ADSP-TS202S processor must start running from memory when one of the interrupts is asserted. The ADSP-TS202S processor core always exits from reset in the idle state and waits for an interrupt. Some of the interrupts in the interrupt vector table are initialized and enabled after reset. For more information on boot options, see the EE-200: ADSP-TS20x TigerSHARC Processor Boot Loader Kernels Oper- ation on the Analog Devices website (www.analog.com). CLOCK DOMAINS The DSP uses calculated ratios of the SCLK clock to operate as shown in Figure 5. The instruction execution rate is equal to CCLK. A PLL from SCLK generates CCLK, which is phase- locked. The SCLKRATx pins define the clock multiplication of SCLK to CCLK (see Table 4 on Page 12). The link port clock is generated from CCLK via a software programmable divisor, and the SOC bus operates at 1/2 CCLK. Memory transfers to exter- nal, and link port buffers operate at the SOCCLK rate. SCLK also provides clock input for the external bus interface and defines the ac specification reference for the external bus sig- nals. The external bus interface runs at the SCLK frequency. The maximum SCLK frequency is one quarter the internal DSP clock (CCLK) frequency. Table 2. No Boot, Run from Memory Addresses Interrupt Address IRQ0 0x3000 0000 (External Memory) IRQ1 0x3800 0000 (External Memory) IRQ2 0x8000 0000 (External Memory) IRQ3 0x0000 0000 (Internal Memory) Figure 5. Clock Domains SCLKRATx SCLK SPD BITS, LCTLx REGISTER PLL /2 /CR CCLK (INSTRUCTION RATE) SOCCLK (PERIPHERAL BUS RATE) LxCLKOUT (LINK OUTPUT RATE) EXTERNAL INTERFACE |
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