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AD7314ARM Datasheet(PDF) 5 Page - Analog Devices |
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AD7314ARM Datasheet(HTML) 5 Page - Analog Devices |
5 / 8 page REV. 0 AD7314 –5– CIRCUIT INFORMATION The AD7314 is a 10-bit digital temperature sensor. The part houses an on-chip temperature sensor, a 10-bit A/D converter, a reference and serial interface logic functions in an µSOIC package. The A/D converter section consists of a conventional successive- approximation converter based around a capacitor DAC. The parts are capable of running on a 2.65 V to 2.9 V power supply. The on-chip temperature sensor allows an accurate measurement of the ambient device temperature to be made. The working measurement range of the AD7314 is –35 °C to +85°C. CONVERTER DETAILS The conversion clock for the part is internally generated so no external clock is required except when reading from and writing to the serial port. In normal mode, an internal clock oscillator runs the automatic conversion sequence. A conversion is initi- ated every 400 µs. At this time, the part wakes up and performs a temperature conversion. This temperature conversion typically takes 25 µs, at which time the part automatically shuts down. The result of the most recent temperature conversion is avail- able in the serial output register at any time. The AD7314 can be placed in a shutdown mode, via the Control Register, in which case, the on-chip oscillator is shut down and no further conversions are initiated until the AD7314 is taken out of shut- down mode. The conversion result from the last conversion prior to shutdown can still be read from the AD7314 even when it is in shutdown mode. In the automatic conversion mode, every time a read or write operation takes place, the internal clock oscillator is restarted at the end of the read or write operation. The result of the conver- sion is available, typically 25 µs later. Similarly, when the part is taken out of shutdown mode, the internal clock oscillator is restarted and the conversion result is available, typically 25 µs later. Reading from the device again before conversion is com- plete will again provide the same set of data. Temperature Value Register The temperature value register is a read-only register that stores the temperature reading from the ADC in 10-bit twos comple- ment format. The temperature data format is shown in Table I. This shows the full theoretical range of the ADC from –128 °C to +127 °C, but in practice the temperature measurement range is limited to the operating temperature range of the device (–35 °C to +85 °C). Table I. Temperature Data Format Digital Output Temperature DB9 . . . DB0 –128 °C 10 0000 0000 –125 °C 10 0000 1100 –100 °C 10 0111 0000 –75 °C 10 1101 0100 –50 °C 11 0011 1000 –25 °C 11 1001 1100 –0.25 °C 11 1111 1111 0 °C 00 0000 0000 +0.25 °C 00 0000 0001 +10 °C 00 0010 1000 +25 °C 00 0110 0100 +50 °C 00 1100 1000 +75 °C 01 0010 1100 +100 °C 01 1001 0000 +125 °C 01 1111 0100 +127 °C 01 1111 1100 Serial Interface The serial interface on the AD7314 consists of four wires, CE, SCLK, SDI and SDO. The interface can be operated in 3-wire mode with SDI tied to Ground, in which case the interface has read-only capability, with data being read from the data register via the SDO line. The SDI line is used to write the part into standby mode, if required. The CE line is used to select the device when more than one device is connected to the serial clock and data lines. To ensure that the serial port is reset prop- erly after power-up, the CE must be at a logic low before the first serial port access. The serial clock is active only when CE is high. For correct data synchronization it is important that the CE be low when the serial port is not been accessed. The part operates in a slave mode and requires an externally applied serial clock to the SCLK input to access data from the data register. The serial interface on the AD7314 is designed to allow the part to be interfaced to systems that provide a serial clock that is synchronized to the serial data, such as the 80C51, 87C51, 68HC11, 68HC05, and PIC16Cxx microcontrollers as well as DSP processors. A read operation from the AD7314 accesses data from the Temperature Value Register while a write operation to the part writes data to the Control Register. Input data is not loaded into the Control Register until the rising edge of the fifteenth SCLK cycle. Data on the SDI line is latched in on the falling edge of the serial clock whilst data is updated on the SDO line on the rising edge of the serial clock. Read Operation Figure 3 shows the interface diagram for a serial read from the AD7314. The CE line enables the SCLK input. A leading zero and ten bits of data are transferred during a read operation. Read operations occur during streams of 16 clock pulses. Output data is updated on the rising edge of SCLK. The serial data is accessed in a number of bytes if ten bits of data are being read. At the end of the read operation, the SDO line remains in the state of the last bit of data clocked out of the AD7314 until CE returns low, at which time the SDO line goes into three-state. |
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