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MC145170-2 数据表(PDF) 9 Page - Freescale Semiconductor, Inc |
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MC145170-2 数据表(HTML) 9 Page - Freescale Semiconductor, Inc |
9 / 32 page Pin Connections MC145170-2 Technical Data, Rev. 5 Freescale Semiconductor 9 3 Pin Connections 3.1 Digital Interface Pins Din Serial Data Input (Pin 5) The bit stream begins with the most significant bit (MSB) and is shifted in on the low-to-high transition of CLK. The bit pattern is 1 byte (8 bits) long to access the C or configuration register, 2 bytes (16 bits) to access the N register, or 3 bytes (24 bits) to access the R register. Additionally, the R register can be accessed with a 15-bit transfer (see Table 7). An optional pattern which resets the device is shown in Figure 15. The values in the C, N, and R registers do not change during shifting because the transfer of data to the registers is controlled by ENB. The bit stream needs neither address nor steering bits due to the innovative BitGrabber registers. Therefore, all bits in the stream are available to be data for the three registers. Random access of any register is provided (i.e., the registers may be accessed in any sequence). Data is retained in the registers over a supply range of 2.7 to 5.5 V. The formats are shown in Figures 15, 16, 17, and 18. Din typically switches near 50% of VDD to maximize noise immunity. This input can be directly interfaced to CMOS devices with outputs guaranteed to switch near rail-to-rail. When interfacing to NMOS or TTL devices, either a level shifter (MC74HC14A, MC14504B) or pull-up resistor of 1 to 10 k Ω must be used. Parameters to consider when sizing the resistor are worst-case IOL of the driving device, maximum tolerable power consumption, and maximum data rate. CLK Serial Data Clock Input (Pin 7) Low-to-high transitions on Clock shift bits available at Din, while high-to-low transitions shift bits from Dout. The chip's 16-1/2-stage shift register is static, allowing clock rates down to dc in a continuous or intermittent mode. Four to eight clock cycles followed by five clock cycles are needed to reset the device; this is optional. Eight clock cycles are required to access the C register. Sixteen clock cycles are needed for the N register. Either 15 or 24 cycles can be used to access the R register (see Table 7 and Figures 15, 16, 17, and 18). For cascaded devices, see Figures 27 to 34. Table 7. Register Access (MSBs are shifted in first, C0, N0, and R0 are the LSBs) Number of Clocks Accessed Register Bit Nomenclature 9 to 13 8 16 15 or 24 Other Values ≤ 32 Values > 32 See Figure 15 C Register N Register R Register None See Figures 27 to 34 (Reset) C7, C6, C5, ..., C0 N15, N14, N13, ..., N0 R14, R13, R12, ..., R0 |
类似零件编号 - MC145170-2 |
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类似说明 - MC145170-2 |
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