Datasheet AD7484 (Analog Devices) - 8
| Manufacturer | Analog Devices |
| Description | 14-Bit, 3 MSPS SAR ADC |
| Pages / Page | 21 / 8 — AD7484. PIN CONFIGURATION AND FUNCTION DESCRIPTIONS. T S. LIP. ESET. D14. … |
| Revision | C |
| File Format / Size | PDF / 602 Kb |
| Document Language | English |
AD7484. PIN CONFIGURATION AND FUNCTION DESCRIPTIONS. T S. LIP. ESET. D14. D13. D12. D11. 48 47 46 45 44 43 42 41 40 39 38 37. 36 D10. PIN 1
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AD7484 PIN CONFIGURATION AND FUNCTION DESCRIPTIONS T S E1 E2 ND ND DD D D NV LIP ESET AG AG AV C MO MO R CO D14 D13 D12 D11 48 47 46 45 44 43 42 41 40 39 38 37 AV 1 DD 36 D10 PIN 1 C 2 IDENTIFIER BIAS 35 D9 AGND 3 34 D8 AGND 4 33 D7 AV 5 DD 32 VDRIVE AD7484 AGND 6 31 DGND TOP VIEW VIN 7 (Not to Scale) 30 DGND REFOUT 8 29 DVDD REFIN 9 28 D6 REFSEL 10 27 D5 11 AGND 26 D4 AGND 12 25 D3 13 14 15 16 17 18 19 20 21 22 23 24 Y DD ND ND BY CS RD D0 D1 D2
002
T ITE NAP AV AG AG S WR BUS
02642- Figure 2. Pin Configuration
Table 4. Pin Function Descriptions Pin No. Mnemonic Description
1, 5, 13, 46 AVDD Positive Power Supply for Analog Circuitry. 2 CBIAS Decoupling Pin for Internal Bias Voltage. A 1 nF capacitor should be placed between this pin and AGND. 3, 4, 6, 11, 12, AGND Power Supply Ground for Analog Circuitry. 14, 15, 47, 48 7 VIN Analog Input. Single ended analog input channel. 8 REFOUT Reference Output. REFOUT connects to the output of the internal 2.5 V reference buffer. A 470 nF capacitor must be placed between this pin and AGND. 9 REFIN Reference Input. A 470 nF capacitor must be placed between this pin and AGND. When using an external voltage reference source, the reference voltage should be applied to this pin. 10 REFSEL Reference Decoupling Pin. When using the internal reference, a 1 nF capacitor must be connected from this pin to AGND. When using an external reference source, this pin should be connected directly to AGND. 16 STBY Standby Logic Input. When this pin is logic high, the device is placed in standby mode. See the Power Saving section for further details. 17 NAP Nap Logic Input. When this pin is logic high, the device is placed in a very low power mode. See the Power Saving section for further details. 18 CS Chip Select Logic Input. This pin is used in conjunction with RD to access the conversion result. The data bus is brought out of three-state and the current contents of the output register driven onto the data lines following the falling edge of both CS and RD. CS is also used in conjunction with WRITE to perform a write to the offset register. CS can be hardwired permanently low. 19 RD Read Logic Input. Used in conjunction with CS to access the conversion result. 20 WRITE Write Logic Input. Used in conjunction with CS to write data to the offset register. When the desired offset word has been placed on the data bus, the WRITE line should be pulsed high. It is the falling edge of this pulse that latches the word into the offset register. 21 BUSY Busy Logic Output. This pin indicates the status of the conversion process. The BUSY signal goes low after the falling edge of CONVST and stays low for the duration of the conversion. In Parallel Mode 1, the BUSY signal returns high when the conversion result has been latched into the output register. In Parallel Mode 2, the BUSY signal returns high as soon as the conversion has been completed, but the conversion result does not get latched into the output register until the falling edge of the next CONVST pulse. 22 to 28, 33 to D0 to D13 Data I/O Bits. D13 is MSB. These are three-state pins that are controlled by CS, RD, and WRITE. The operating 39 voltage level for these pins is determined by the VDRIVE input. 29 DVDD Positive Power Supply for Digital Circuitry. 30, 31 DGND Ground Reference for Digital Circuitry. 32 VDRIVE Logic Power Supply Input. The voltage supplied at this pin determines at what voltage the interface logic of the device operates. Rev. C | Page 7 of 20 Document Outline Features Functional Block Diagram General Description Revision History Specifications Timing Characteristics Absolute Maximum Ratings ESD Caution Pin Configuration and Function Descriptions Typical Performance Characteristics Terminology Circuit Description Converter Operation Analog Input ADC Transfer Function Power Saving Offset/Overrange Parallel Interface Reading Data from the AD7484 Writing to the AD7484 Driving the CONVST Pin Typical Connection Board Layout and Grounding Outline Dimensions Ordering Guide
AD7484 PIN CONFIGURATION AND FUNCTION DESCRIPTIONS T S E1 E2 ND ND DD D D NV LIP ESET AG AG AV C MO MO R CO D14 D13 D12 D11 48 47 46 45 44 43 42 41 40 39 38 37 AV 1 DD 36 D10 PIN 1 C 2 IDENTIFIER BIAS 35 D9 AGND 3 34 D8 AGND 4 33 D7 AV 5 DD 32 VDRIVE AD7484 AGND 6 31 DGND TOP VIEW VIN 7 (Not to Scale) 30 DGND REFOUT 8 29 DVDD REFIN 9 28 D6 REFSEL 10 27 D5 11 AGND 26 D4 AGND 12 25 D3 13 14 15 16 17 18 19 20 21 22 23 24 Y DD ND ND BY CS RD D0 D1 D2
002
T ITE NAP AV AG AG S WR BUS
02642- Figure 2. Pin Configuration
Table 4. Pin Function Descriptions Pin No. Mnemonic Description
1, 5, 13, 46 AVDD Positive Power Supply for Analog Circuitry. 2 CBIAS Decoupling Pin for Internal Bias Voltage. A 1 nF capacitor should be placed between this pin and AGND. 3, 4, 6, 11, 12, AGND Power Supply Ground for Analog Circuitry. 14, 15, 47, 48 7 VIN Analog Input. Single ended analog input channel. 8 REFOUT Reference Output. REFOUT connects to the output of the internal 2.5 V reference buffer. A 470 nF capacitor must be placed between this pin and AGND. 9 REFIN Reference Input. A 470 nF capacitor must be placed between this pin and AGND. When using an external voltage reference source, the reference voltage should be applied to this pin. 10 REFSEL Reference Decoupling Pin. When using the internal reference, a 1 nF capacitor must be connected from this pin to AGND. When using an external reference source, this pin should be connected directly to AGND. 16 STBY Standby Logic Input. When this pin is logic high, the device is placed in standby mode. See the Power Saving section for further details. 17 NAP Nap Logic Input. When this pin is logic high, the device is placed in a very low power mode. See the Power Saving section for further details. 18 CS Chip Select Logic Input. This pin is used in conjunction with RD to access the conversion result. The data bus is brought out of three-state and the current contents of the output register driven onto the data lines following the falling edge of both CS and RD. CS is also used in conjunction with WRITE to perform a write to the offset register. CS can be hardwired permanently low. 19 RD Read Logic Input. Used in conjunction with CS to access the conversion result. 20 WRITE Write Logic Input. Used in conjunction with CS to write data to the offset register. When the desired offset word has been placed on the data bus, the WRITE line should be pulsed high. It is the falling edge of this pulse that latches the word into the offset register. 21 BUSY Busy Logic Output. This pin indicates the status of the conversion process. The BUSY signal goes low after the falling edge of CONVST and stays low for the duration of the conversion. In Parallel Mode 1, the BUSY signal returns high when the conversion result has been latched into the output register. In Parallel Mode 2, the BUSY signal returns high as soon as the conversion has been completed, but the conversion result does not get latched into the output register until the falling edge of the next CONVST pulse. 22 to 28, 33 to D0 to D13 Data I/O Bits. D13 is MSB. These are three-state pins that are controlled by CS, RD, and WRITE. The operating 39 voltage level for these pins is determined by the VDRIVE input. 29 DVDD Positive Power Supply for Digital Circuitry. 30, 31 DGND Ground Reference for Digital Circuitry. 32 VDRIVE Logic Power Supply Input. The voltage supplied at this pin determines at what voltage the interface logic of the device operates. Rev. C | Page 7 of 20 Document Outline Features Functional Block Diagram General Description Revision History Specifications Timing Characteristics Absolute Maximum Ratings ESD Caution Pin Configuration and Function Descriptions Typical Performance Characteristics Terminology Circuit Description Converter Operation Analog Input ADC Transfer Function Power Saving Offset/Overrange Parallel Interface Reading Data from the AD7484 Writing to the AD7484 Driving the CONVST Pin Typical Connection Board Layout and Grounding Outline Dimensions Ordering Guide
