Datasheet AD7714 (Analog Devices) - 10
| 制造商 | Analog Devices |
| 描述 | CMOS, 3V/5V, 500 µA, 24-Bit Sigma-Delta, Signal Conditioning ADC |
| 页数 / 页 | 41 / 10 — AD7714. PIN FUNCTION DESCRIPTION. DIP/SOIC PIN NUMBERS. Pin No. Mnemonic. … |
| 修订版 | C |
| 文件格式/大小 | PDF / 352 Kb |
| 文件语言 | 英语 |
AD7714. PIN FUNCTION DESCRIPTION. DIP/SOIC PIN NUMBERS. Pin No. Mnemonic. Function
该数据表的模型线
- AD7714ACHIPS-3 AD7714ACHIPS-5 AD7714AN-5 AD7714ANZ-5 AD7714AR-5 AD7714AR-5REEL AD7714ARS-5 AD7714ARSZ-3 AD7714ARSZ-3REEL AD7714ARSZ-5 AD7714ARSZ-5REEL AD7714ARZ-3 AD7714ARZ-3REEL AD7714ARZ-5 AD7714ARZ-5REEL AD7714YNZ AD7714YR AD7714YRU AD7714YRUZ AD7714YRUZ-REEL AD7714YRUZ-REEL7 AD7714YRZ AD7714YRZ-REEL AD7714YRZ-REEL7
文件文字版本
AD7714 PIN FUNCTION DESCRIPTION DIP/SOIC PIN NUMBERS Pin No. Mnemonic Function
1 SCLK Serial Clock. Logic Input. An external serial clock is applied to this input to access serial data from the AD7714. This serial clock can be a continuous clock with all data transmitted in a continuous train of pulses. Alternatively, it can be a noncontinuous clock with the information being transmitted to the AD7714 in smaller
2
batches of data. 2 MCLK IN Master Clock signal for the device. This can be provided in the form of a crystal/resonator or external clock. A crystal/resonator can be tied across the MCLK IN and MCLK OUT pins. Alternatively, the MCLK IN pin can be driven with a CMOS-compatible clock and MCLK OUT left unconnected. The part is specified with clock input frequencies of both 1 MHz and 2.4576 MHz. 3 MCLK OUT When the master clock for the device is a crystal/resonator, the crystal/resonator is connected between MCLK IN and MCLK␣ OUT. If an external clock is applied to the MCLK IN, MCLK OUT provides an inverted clock signal. This clock can be used to provide a clock source for external circuits. 4 POL Clock Polarity. Logic Input. With this input low, the first transition of the serial clock in a data transfer operation is from a low to a high. In microcontroller applications, this means that the serial clock should idle low between data transfers. With this input high, the first transition of the serial clock in a data transfer operation is from a high to a low. In microcontroller applications, this means that the serial clock should idle high between data transfers. 5 SYNC Logic Input which allows for synchronization of the digital filters and analog modulators when using a number of AD7714s. While SYNC is low, the nodes of the digital filter, the filter control logic and the calibration control logic are reset and the analog modulator is also held in its reset state. SYNC does not affect the digital interface and does not reset DRDY if it is low. 6 RESET Logic Input. Active low input which resets the control logic, interface logic, digital filter and analog modulator of the part to power-on status. 7 AIN1 Analog Input Channel 1. Programmable-gain analog input which can be used as a pseudo-differential input when used with AIN6 or as the positive input of a differential analog input pair when used with AIN2 (see Communications Register section). 8 AIN2 Analog Input Channel 2. Programmable-gain analog input which can be used as a pseudo-differential input when used with AIN6 or as the negative input of a differential analog input pair when used with AIN1 (see Communications Register section). 9 AIN3 Analog Input Channel 3. Programmable-gain analog input which can be used as a pseudo-differential input when used with AIN6 or as the positive input of a differential analog input pair when used with AIN4 (see Communications Register section). 10 AIN4 Analog Input Channel 4. Programmable-gain analog input which can be used as a pseudo-differential input when used with AIN6 or as the negative input of a differential analog input pair when used with AIN3 (see Communications Register section). 11 STANDBY Logic Input. Taking this pin low shuts down the analog and digital circuitry, reducing current consumption to typically 5 µA. 12 AVDD Analog Positive Supply Voltage, A Grade Versions: +3.3␣ V nominal (AD7714-3) or +5␣ V nominal (AD7714-5); Y Grade Versions: 3 V or 5 V nominal. 13 BUFFER Buffer Option Select. Logic Input. With this input low, the on-chip buffer on the analog input (after the multiplexer and before the analog modulator) is shorted out. With the buffer shorted out the current flowing in the AVDD line is reduced to 270 µA. With this input high, the on-chip buffer is in series with the analog input allowing the inputs to handle higher source impedances. 14 REF IN(–) Reference Input. Negative input of the differential reference input to the AD7714. The REF IN(–) can lie anywhere between AVDD and AGND provided REF␣ IN(+) is greater than REF IN(–). 15 REF IN(+) Reference Input. Positive input of the differential reference input to the AD7714. The reference input is differential with the provision that REF IN(+) must be greater than REF IN(–). REF IN(+) can lie anywhere between AVDD and AGND. 16 AIN5 Analog Input Channel 5. Programmable-gain analog input which is the positive input of a differential analog input pair when used with AIN6 (see Communications Register section). 17 AIN6 Analog Input Channel 6. Reference point for AIN1 through AIN4 in pseudo-differential mode or as the negative input of a differential input pair when used with AIN5 (see Communications Register section). 18 AGND Ground reference point for analog circuitry. REV. C –9–
1 SCLK Serial Clock. Logic Input. An external serial clock is applied to this input to access serial data from the AD7714. This serial clock can be a continuous clock with all data transmitted in a continuous train of pulses. Alternatively, it can be a noncontinuous clock with the information being transmitted to the AD7714 in smaller
2
batches of data. 2 MCLK IN Master Clock signal for the device. This can be provided in the form of a crystal/resonator or external clock. A crystal/resonator can be tied across the MCLK IN and MCLK OUT pins. Alternatively, the MCLK IN pin can be driven with a CMOS-compatible clock and MCLK OUT left unconnected. The part is specified with clock input frequencies of both 1 MHz and 2.4576 MHz. 3 MCLK OUT When the master clock for the device is a crystal/resonator, the crystal/resonator is connected between MCLK IN and MCLK␣ OUT. If an external clock is applied to the MCLK IN, MCLK OUT provides an inverted clock signal. This clock can be used to provide a clock source for external circuits. 4 POL Clock Polarity. Logic Input. With this input low, the first transition of the serial clock in a data transfer operation is from a low to a high. In microcontroller applications, this means that the serial clock should idle low between data transfers. With this input high, the first transition of the serial clock in a data transfer operation is from a high to a low. In microcontroller applications, this means that the serial clock should idle high between data transfers. 5 SYNC Logic Input which allows for synchronization of the digital filters and analog modulators when using a number of AD7714s. While SYNC is low, the nodes of the digital filter, the filter control logic and the calibration control logic are reset and the analog modulator is also held in its reset state. SYNC does not affect the digital interface and does not reset DRDY if it is low. 6 RESET Logic Input. Active low input which resets the control logic, interface logic, digital filter and analog modulator of the part to power-on status. 7 AIN1 Analog Input Channel 1. Programmable-gain analog input which can be used as a pseudo-differential input when used with AIN6 or as the positive input of a differential analog input pair when used with AIN2 (see Communications Register section). 8 AIN2 Analog Input Channel 2. Programmable-gain analog input which can be used as a pseudo-differential input when used with AIN6 or as the negative input of a differential analog input pair when used with AIN1 (see Communications Register section). 9 AIN3 Analog Input Channel 3. Programmable-gain analog input which can be used as a pseudo-differential input when used with AIN6 or as the positive input of a differential analog input pair when used with AIN4 (see Communications Register section). 10 AIN4 Analog Input Channel 4. Programmable-gain analog input which can be used as a pseudo-differential input when used with AIN6 or as the negative input of a differential analog input pair when used with AIN3 (see Communications Register section). 11 STANDBY Logic Input. Taking this pin low shuts down the analog and digital circuitry, reducing current consumption to typically 5 µA. 12 AVDD Analog Positive Supply Voltage, A Grade Versions: +3.3␣ V nominal (AD7714-3) or +5␣ V nominal (AD7714-5); Y Grade Versions: 3 V or 5 V nominal. 13 BUFFER Buffer Option Select. Logic Input. With this input low, the on-chip buffer on the analog input (after the multiplexer and before the analog modulator) is shorted out. With the buffer shorted out the current flowing in the AVDD line is reduced to 270 µA. With this input high, the on-chip buffer is in series with the analog input allowing the inputs to handle higher source impedances. 14 REF IN(–) Reference Input. Negative input of the differential reference input to the AD7714. The REF IN(–) can lie anywhere between AVDD and AGND provided REF␣ IN(+) is greater than REF IN(–). 15 REF IN(+) Reference Input. Positive input of the differential reference input to the AD7714. The reference input is differential with the provision that REF IN(+) must be greater than REF IN(–). REF IN(+) can lie anywhere between AVDD and AGND. 16 AIN5 Analog Input Channel 5. Programmable-gain analog input which is the positive input of a differential analog input pair when used with AIN6 (see Communications Register section). 17 AIN6 Analog Input Channel 6. Reference point for AIN1 through AIN4 in pseudo-differential mode or as the negative input of a differential input pair when used with AIN5 (see Communications Register section). 18 AGND Ground reference point for analog circuitry. REV. C –9–