Part Details for LTC1864CS8#PBF by Linear Technology
Results Overview of LTC1864CS8#PBF by Linear Technology
- Distributor Offerings: (2 listings)
- Number of FFF Equivalents: (0 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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LTC1864CS8#PBF Information
LTC1864CS8#PBF by Linear Technology is an Analog to Digital Converter.
Analog to Digital 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 LTC1864CS8#PBF
| Part # | Distributor | Description | Stock | Price | Buy | |
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Bristol Electronics | 91 |
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RFQ | ||
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Vyrian | Converters | 241 |
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RFQ |
Part Details for LTC1864CS8#PBF
LTC1864CS8#PBF CAD Models
LTC1864CS8#PBF Part Data Attributes
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LTC1864CS8#PBF
Linear Technology
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Datasheet
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LTC1864CS8#PBF
Linear Technology
LTC1864 - µPower, 16-Bit, 250ksps 1- and 2-Channel ADCs in SOIC; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
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| Rohs Code | Yes | |
| Part Life Cycle Code | Transferred | |
| Ihs Manufacturer | LINEAR TECHNOLOGY CORP | |
| Part Package Code | SOIC | |
| Package Description | 0.150 INCH, LEAD FREE, PLASTIC, SOP-8 | |
| Pin Count | 8 | |
| Manufacturer Package Code | S8 | |
| Reach Compliance Code | compliant | |
| HTS Code | 8542.39.00.01 | |
| Analog Input Voltage-Max | 5.25 V | |
| Analog Input Voltage-Min | ||
| Conversion Time-Max | 3.2 µs | |
| Converter Type | ADC, SUCCESSIVE APPROXIMATION | |
| JESD-30 Code | R-PDSO-G8 | |
| JESD-609 Code | e3 | |
| Length | 4.903 mm | |
| Linearity Error-Max (EL) | 0.0122% | |
| Moisture Sensitivity Level | 1 | |
| Number of Analog In Channels | 1 | |
| Number of Bits | 16 | |
| Number of Functions | 1 | |
| Number of Terminals | 8 | |
| Operating Temperature-Max | 70 °C | |
| Operating Temperature-Min | ||
| Output Bit Code | BINARY | |
| Output Format | SERIAL | |
| Package Body Material | PLASTIC/EPOXY | |
| Package Code | SOP | |
| Package Equivalence Code | SOP8,.25 | |
| Package Shape | RECTANGULAR | |
| Package Style | SMALL OUTLINE | |
| Peak Reflow Temperature (Cel) | 260 | |
| Qualification Status | Not Qualified | |
| Sample Rate | 0.25 MHz | |
| Sample and Hold / Track and Hold | SAMPLE | |
| Seated Height-Max | 1.752 mm | |
| Supply Voltage-Nom | 5 V | |
| Surface Mount | YES | |
| Technology | CMOS | |
| Temperature Grade | COMMERCIAL | |
| Terminal Finish | Matte Tin (Sn) | |
| Terminal Form | GULL WING | |
| Terminal Pitch | 1.27 mm | |
| Terminal Position | DUAL | |
| Time@Peak Reflow Temperature-Max (s) | 30 | |
| Width | 3.9 mm |
Alternate Parts for LTC1864CS8#PBF
This table gives cross-reference parts and alternative options found for LTC1864CS8#PBF. 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 LTC1864CS8#PBF, 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 |
|---|---|---|---|---|
| ADS7822EC/2K5 | Texas Instruments | $2.0531 | 12-Bit, 200kSPS Micro Power Sampling Analog-To-Digital Converter 8-VSSOP -40 to 85 | LTC1864CS8#PBF vs ADS7822EC/2K5 |
| LTC1864IS8#PBF | Linear Technology | Check for Price | LTC1864 - µPower, 16-Bit, 250ksps 1- and 2-Channel ADCs in SOIC; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C | LTC1864CS8#PBF vs LTC1864IS8#PBF |
| ADS7817UB | Texas Instruments | Check for Price | 12-Bit Differential Input Micro Power Sampling Analog-to-Digital Converter 8-SOIC -40 to 85 | LTC1864CS8#PBF vs ADS7817UB |
| ADS7817PB | Texas Instruments | Check for Price | 12-Bit Differential Input Micro Power Sampling Analog-to-Digital Converter 8-PDIP -40 to 85 | LTC1864CS8#PBF vs ADS7817PB |
| ADS8325IDGKTG4 | Texas Instruments | Check for Price | 16-Bit, 100kSPS Serial Out, 2.7V-to-5.5V Micropower Sampling ADC 8-VSSOP | LTC1864CS8#PBF vs ADS8325IDGKTG4 |
| ADS7816PBG4 | Texas Instruments | Check for Price | 12-Bit High Speed Micro Power Sampling Analog-To-Digital Converter 8-PDIP -40 to 85 | LTC1864CS8#PBF vs ADS7816PBG4 |
| ADS7822UC/2K5 | Texas Instruments | Check for Price | 12-Bit, 200kSPS Micro Power Sampling Analog-To-Digital Converter 8-SOIC -40 to 85 | LTC1864CS8#PBF vs ADS7822UC/2K5 |
| LTC1286CN8#PBF | Linear Technology | Check for Price | LTC1286 - Micropower Sampling 12-Bit A/D Converters In S0-8 Packages; Package: PDIP; Pins: 8; Temperature Range: 0°C to 70°C | LTC1864CS8#PBF vs LTC1286CN8#PBF |
| ADS7816UB/2K5 | Texas Instruments | Check for Price | 12-bit high-speed micropower sampling analog-to-digital converter (ADC) 8-SOIC -40 to 85 | LTC1864CS8#PBF vs ADS7816UB/2K5 |
| LTC1864CMS8 | Linear Technology | Check for Price | LTC1864 - µPower, 16-Bit, 250ksps 1- and 2-Channel ADCs in SOIC; Package: MSOP; Pins: 8; Temperature Range: 0°C to 70°C | LTC1864CS8#PBF vs LTC1864CMS8 |
LTC1864CS8#PBF Frequently Asked Questions (FAQ)
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The maximum input voltage that can be applied to the LTC1864CS8 is 5.5V. Exceeding this voltage may damage the device.
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To ensure accurate voltage measurements, it is essential to follow proper PCB layout and grounding techniques, minimize noise and interference, and use a low-noise, low-impedance power supply.
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The REF pin is used to provide a reference voltage for the ADC. It can be connected to an external reference voltage source or left unconnected to use the internal 2.5V reference voltage.
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Yes, the LTC1864CS8 can be used in a multi-channel configuration by connecting multiple devices in a daisy-chain configuration. However, this requires careful attention to synchronization and data transfer protocols.
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To minimize high-frequency noise and EMI, use proper shielding, grounding, and decoupling techniques. Additionally, consider using filters, such as RC filters or ferrite beads, to reduce noise and EMI.