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AD5171BRJ5-R Datasheet(PDF) 18 Page - Analog Devices |
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AD5171BRJ5-R Datasheet(HTML) 18 Page - Analog Devices |
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18 / 24 page  AD5171 Rev. D | Page 18 of 24 the instruction byte, the last byte in the write mode is the data byte. Data is transmitted over the serial bus in sequences of nine clock pulses (eight data bits followed by an acknowledge bit). The transitions on the SDA line must occur during the low period of SCL and remain stable during the high period of SCL (see Figure 35). In read mode, the data byte follows immediately after the acknowledgment of the slave address byte. Data is transmitted over the serial bus in sequences of nine clock pulses (note the slight difference from the write mode; there are eight data bits followed by a no acknowledge bit). Similarly, the transitions on the SDA line must occur during the low period of SCL and remain stable during the high period of SCL (see Figure 37). When all data bits are read or written, a stop condition is established by the master. A stop condition is defined as a low- to-high transition on the SDA line while SCL is high. In the write mode, the master pulls the SDA line high during the 10th clock pulse to establish a stop condition (see Figure 35 and Figure 36). In the read mode, the master issues a no acknowledge for the 9th clock pulse, that is, the SDA line remains high. The master then brings the SDA line low before the 10th clock pulse, which goes high to establish a stop condition (see Figure 37). A repeated write function gives the user flexibility to update the RDAC output a number of times, except after permanent programming, addressing, and instructing the part only once. During the write cycle, each data byte updates the RDAC output. For example, after the RDAC has acknowledged its slave address and instruction bytes, the RDAC output updates after these two bytes. If another byte is written to the RDAC while it is still addressed to a specific slave device with the same instruction, this byte updates the output of the selected slave device. If different instructions are needed, the write mode has to be started with a new slave address, instruction, and data bytes. Similarly, a repeated read function of the RDAC is also allowed. CONTROLLING TWO DEVICES ON ONE BUS Figure 38 shows two AD5171 devices on the same serial bus. Each has a different slave address because the state of each AD0 pin is different, which allows each device to be independently operated. The master device output bus line drivers are open- drain pull-downs in a fully I2C-compatible interface. MASTER SDA SCL AD0 AD5171 SDA SCL AD0 AD5171 SDA SCL 5V Rp Rp 5V Figure 38. Two AD5171 Devices on One Bus |
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