Part Details for AD636JD by Analog Devices Inc
Results Overview of AD636JD by Analog Devices Inc
- Distributor Offerings: (2 listings)
- Number of FFF Equivalents: (3 replacements)
- CAD Models: (Request Part)
- Number of Functional Equivalents: (10 options)
- Part Data Attributes: (Available)
- Reference Designs: (Not Available)
Tip: Data for a part may vary between manufacturers. You can filter for manufacturers on the top of the page next to the part image and part number.
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AD636JD Information
AD636JD by Analog Devices Inc is an Analog Special Function Converter.
Analog Special Function Converters are under the broader part category of Converters.
A converter is an electrical circuit that transforms electric energy into a different form that will support a elecrical load needed by a device. Read more about Converters on our Converters part category page.
Price & Stock for AD636JD
| Part # | Distributor | Description | Stock | Price | Buy | |
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Quest Components | IC,RMS-TO-DC CONVERTER,DIP,14PIN | 1 |
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$53.8086 | Buy Now |
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Rochester Electronics | RMS to DC Converter, 1 Func, 0.1MHz, CDIP14 RoHS: Not Compliant Status: Obsolete Min Qty: 1 | 633 |
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$23.5200 / $29.4000 | Buy Now |
Part Details for AD636JD
AD636JD CAD Models
AD636JD Part Data Attributes
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AD636JD
Analog Devices Inc
Buy Now
Datasheet
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AD636JD
Analog Devices Inc
IC RMS TO DC CONVERTER, 0.1 MHz, CDIP14, SIDE BRAZED, CERAMIC, TO-116, DIP-14, Analog Special Function Converter
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| Rohs Code | No | |
| Part Life Cycle Code | Obsolete | |
| Ihs Manufacturer | ANALOG DEVICES INC | |
| Part Package Code | DIP | |
| Package Description | SIDE BRAZED, CERAMIC, TO-116, DIP-14 | |
| Pin Count | 14 | |
| Reach Compliance Code | unknown | |
| HTS Code | 8542.39.00.01 | |
| Samacsys Manufacturer | Analog Devices | |
| Converter Type | RMS TO DC CONVERTER | |
| JESD-30 Code | R-CDIP-T14 | |
| Length | 19.43 mm | |
| Negative Supply Voltage-Max | -16.5 V | |
| Negative Supply Voltage-Min | -2.5 V | |
| Negative Supply Voltage-Nom | -5 V | |
| Number of Functions | 1 | |
| Number of Terminals | 14 | |
| Operating Frequency-Max | 0.09 MHz | |
| Operating Temperature-Max | 70 °C | |
| Operating Temperature-Min | ||
| Package Body Material | CERAMIC, METAL-SEALED COFIRED | |
| Package Code | DIP | |
| Package Equivalence Code | DIP14,.3 | |
| Package Shape | RECTANGULAR | |
| Package Style | IN-LINE | |
| Peak Reflow Temperature (Cel) | NOT SPECIFIED | |
| Positive Input Voltage-Max | 0.2 V | |
| Qualification Status | Not Qualified | |
| Seated Height-Max | 5.08 mm | |
| Supply Current-Max | 1 mA | |
| Supply Voltage-Max | 16.5 V | |
| Supply Voltage-Min | 2 V | |
| Supply Voltage-Nom | 3 V | |
| Surface Mount | NO | |
| Temperature Grade | COMMERCIAL | |
| Terminal Form | THROUGH-HOLE | |
| Terminal Pitch | 2.54 mm | |
| Terminal Position | DUAL | |
| Time@Peak Reflow Temperature-Max (s) | NOT SPECIFIED | |
| Total Error-Max | 1% | |
| Width | 7.62 mm |
Alternate Parts for AD636JD
This table gives cross-reference parts and alternative options found for AD636JD. The Form Fit Function (FFF) tab will give you the options that are more likely to serve as direct pin-to-pin alternates or drop-in parts. The Functional Equivalents tab will give you options that are likely to match the same function of AD636JD, but it may not fit your design. Always verify details of parts you are evaluating, as these parts are offered as suggestions for what you are looking for and are not guaranteed.
| Part Number | Manufacturer | Composite Price | Description | Compare |
|---|---|---|---|---|
| MX636JN | Maxim Integrated Products | Check for Price | RMS to DC Converter, 1 Func, 0.1MHz, Bipolar, PDIP14, PLASTIC, DIP-14 | AD636JD vs MX636JN |
| AD636JD/+ | Analog Devices Inc | Check for Price | IC RMS TO DC CONVERTER, CDIP14, HERMETIC SEALED, SIDE BRAZED, CERAMIC, TO-116, DIP-14, Analog Special Function Converter | AD636JD vs AD636JD/+ |
| MX636JQ | Maxim Integrated Products | Check for Price | RMS to DC Converter, 1 Func, 0.1MHz, Bipolar, CDIP14, CERAMIC, DIP-14 | AD636JD vs MX636JQ |
AD636JD Frequently Asked Questions (FAQ)
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A good layout and grounding technique is crucial for the AD636JD. It is recommended to use a multi-layer PCB with a solid ground plane, and to keep the analog and digital grounds separate. The AD636JD should be placed close to the analog-to-digital converter (ADC) and the reference voltage source. A star-grounding configuration can help to reduce noise and ensure accurate measurements.
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The AD636JD requires calibration to achieve the highest accuracy. The calibration process involves adjusting the zero-scale and full-scale outputs of the device. The zero-scale output can be adjusted by trimming the offset voltage, while the full-scale output can be adjusted by trimming the gain. The calibration process should be done at the operating temperature range of the device.
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Temperature can affect the accuracy and stability of the AD636JD. The device has a specified temperature range of -40°C to +125°C, and its accuracy and stability can degrade outside this range. The device's offset voltage and gain can drift with temperature, which can affect its accuracy. It is recommended to use temperature compensation techniques, such as using a temperature sensor and adjusting the offset and gain accordingly, to minimize the effects of temperature.
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The AD636JD can be susceptible to EMI and RFI, which can affect its accuracy and stability. To protect the device, it is recommended to use shielding, such as a metal enclosure or a shielded cable, to prevent electromagnetic radiation from coupling into the device. Additionally, using a low-pass filter or a ferrite bead can help to filter out high-frequency noise and reduce the effects of EMI and RFI.
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The AD636JD requires a well-regulated power supply to ensure accurate and stable operation. It is recommended to use a low-noise, low-dropout regulator (LDO) to power the device. Additionally, decoupling capacitors, such as ceramic or film capacitors, should be used to filter out high-frequency noise and reduce the effects of power supply ripple. A 10uF capacitor in parallel with a 100nF capacitor is a good starting point for decoupling.