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FIN24CGFX Arkusz danych(PDF) 8 Page - Fairchild Semiconductor |
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FIN24CGFX Arkusz danych(HTML) 8 Page - Fairchild Semiconductor |
8 / 22 page www.fairchildsemi.com 8 Embedded Word Clock Operation The FIN24C sends and receives serial data source synchro- nously with a bit clock. The bit clock has been modified to create a word boundary at the end of each data word. The word boundary has been implemented by skipping a LOW clock pulse. This appears in the serial clock stream as three consecu- tive bit times where signal CKSO remains HIGH. In order to implement this sort of scheme two extra data bits are required. During the word boundary phase the data will toggle either HIGH-then-LOW or LOW-then-HIGH dependent upon the last bit of the actual data word. Table 2 provides some examples showing the actual data word and the data word with the word boundary bits added. Note that a 24-bit word will be extended to 26 bits during serial transmission. Bit 25 and Bit 26 are defined with-respect-to Bit 24. Bit 25 will always be the inverse of Bit 24 and Bit 26 will always be the same as Bit 24. This insures that a “0” o “1” and a “1” o “0” transition will always occur during the embedded word phase where CKSO is HIGH. The serializer generates the word boundary data bits and the boundary clock condition and embeds them into the serial data stream. The deserializer looks for the end of the word boundary condition to capture and transfer the data to the parallel port. The deserializer only uses the embedded word boundary infor- mation to find and capture the data. These boundary bits are then stripped prior to the word being sent out of the parallel port. TABLE 2. Word Boundary Data Bits LVCMOS Data I/O (Figure 6) The LVCMOS input buffers have a nominal threshold value equal to ½ of VDDP. The input buffers are only operational when the device is operating as a serializer. When the device is oper- ating as a deserializer the inputs are gated off to conserve power. The LVCMOS 3-STATE output buffers are rated for a source/ sink current of 2mAs at 1.8V. The outputs are active when the DIRI signal is asserted LOW. When the DIRI signal is asserted HIGH the bi-directional LVCMOS I/Os will be in a HIGH-Z state. Under purely capacitive load conditions the output will swing between GND and VDDP. Unused LVCMOS input buffers must be tied off to either a valid logic LOW or a valid logic HIGH level to prevent static current draw due to a floating input. Unused LVCMOS outputs should be left floating. Unused bidirectional pins should be connected to GND through a high value resistor. If a FIN24C devices is configured as an unidirectional serializer then unused data I/O can be treated as unused inputs. If the FIN24C is hardwired as a deserializer then unused date I/O can be treated as unused outputs. FIGURE 6. LVCMOS I/O Differential I/O Circuitry (Figure 7) The FIN24C employs FSC proprietary CTL I/O technology. CTL is a low power, low EMI differential swing I/O technology. The CTL output driver generates a constant output source and sink current. The CTL input receiver senses the current difference and direction from the corresponding output buffer to which it is connected. This differs from LVDS which uses a constant cur- rent source output but a voltage sense receiver. Like LVDS an input source termination resistor is required to properly termi- nate the transmission line. The FIN24C device incorporates an internal termination resistor on the CKSI receiver and a gated internal termination resistor on the DS input receiver. The gated termination resistor insures proper termination regardless of direction of data flow. The relative greater sensitivity of the cur- rent sense receiver of CTL allows it to work at much lower cur- rent drive and correspondingly a much lower voltage. During power-down mode the differential inputs will be disabled and powered down and the differential outputs will be placed in a HIGH-Z state. CTL inputs have an inherent failsafe capability that supports floating inputs. When the CKSI input pair of the serializer is unused it can reliably be left floating. Alternately both of the inputs can be connected to ground. CTL inputs should never be connected to VDD. When the CKSO output of the deserializer is unused it should be allowed to float. FIGURE 7. Bi-Directional Differential I/O Circuitry 24-Bit Data Words 24-Bit Data Word with Word Boundary Hex Binary Hex Binary FFFFFFh 1111 1111 1111 1111 1111 1111b 2FFFFFFh 10 1111 1111 1111 1111 1111 1111b 555555h 0101 0101 0101 0101 01010 0101b 1555555h 01 0101 0101 0101 0101 0101 0101b xxxxxxh 0xxx xxxx xxxx xxxx xxxx xxxxb 1xxxxxxh 01 0xxx xxxx xxxx xxxx xxxx xxxxb xxxxxxh 1xxx xxxx xxxx xxxx xxxx xxxxb 2xxxxxxh 10 1xxx xxxx xxxx xxxx xxxx xxxxb |
Podobny numer części - FIN24CGFX |
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Podobny opis - FIN24CGFX |
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