Part No .:
D3625AManufacturer:
IntelDescription:
ICRemark:
new originLast Updated:
2025/09/12
Data sheet The Intel M2764A is a 5V only, 65,536-bit ultraviolet erasable and electrically programmable readonly memory (EPROM). The M2764A is an advanced version of the M2764 and is fabricated with Intel’s HMOSII-E technology which significantly reduces die size and greatly improves the device’s performance, power consumption, reliability, and producibility. The M2764A also offers reduced power consumption compared to the M2764. The maximum active current is 100 mA while the maximum standby current is only 40 mA. The standby mode lowers power consumption without increasing access time.
Physical Number of Pins 24 Compliance RoHS Non-Compliant The ADIS16489 is a complete inertial system that includes a triaxis gyroscope, a triaxis accelerometer, and a barometer. Each inertial sensor in the ADIS16489 combines industry leading iMEMS® technology with signal conditioning that optimizes dynamic performance. The factory calibration characterizes each sensor for sensitivity, bias, alignment, and linear acceleration (gyroscope bias). As a result, each sensor has its own dynamic compensation formulas that provide accurate sensor measurements. The ADIS16489 provides a simple, cost effective method for integrating accurate, multiaxis inertial sensing into industrial systems, especially when compared with the complexity and investment associated with discrete designs. All necessary motion testing and calibration are part of the production process at the factory, greatly reducing system integration time. Tight orthogonal alignment simplifies inertial frame alignment in navigation systems. The serial peripheral interface (SPI) and register structure provide a simple interface for data collection and configuration control. Parylene coating of all internal circuitry (except the barometer) provides a protective barrier against moisture exposure. The ADIS16489 uses the same footprint and connector system as the ADIS16375, ADIS16480, ADIS16485, and ADIS16488A, which greatly simplifies the upgrade process. The ADIS16489 is packaged in a module that is approximately 44 mm × 47 mm × 14 mm and includes a standard connector interface. Applications Platform stabilization and control Navigation Personnel tracking Instrumentation Robotics
Data sheet Physical Contact Plating Copper , Tin , Silver Mount Surface Mount Technical Logic Function Receiver Max Operating Temperature 125 °C Min Operating Temperature -40 °C Operating Supply Current 2.5 A Compliance Lead Free Lead Free RoHS Compliant 5-W (WPC) Single-Chip Wireless Power Receiver with I2C 42-DSBGA -40 to 125
Data sheet Physical Contact Plating Gold Mount Surface Mount Number of Pins 8 Technical Density 1 Mb Frequency 15 MHz Interface Serial , 2-Wire Max Operating Temperature 85 °C Max Supply Voltage 5.5 V Memory Size 1 Mb Memory Type EEPROM Min Operating Temperature -40 °C Min Supply Voltage 3 V Nominal Supply Current 10 mA Voltage 5 V Compliance Lead Free Lead Free Radiation Hardening No RoHS Non-Compliant The AT17LV FPGA Configuration EEPROMs (Configurators) provide an easy-touse, cost-effective configuration memory solution for Field Programmable Gate Arrays. The AT17LV devices are packaged in the 8-lead LAP, 8-lead PDIP, 8-lead SOIC, 20-lead PLCC, 20-lead SOIC and 44-lead TQFP options(Table 1). The AT17LV Configurators use a simple serial-access procedure to configure one or more FPGA devices. The user can select the polarity of the reset function during programming. These devices also support a write protection mechanism within its programming mode.
Data sheet Physical Case/Package SOIC Mount Surface Mount Number of Pins 24 Technical Conversion Rate 15 kS/s Dual Supply Voltage 5 V Interface SPI , Serial Max Dual Supply Voltage 5.25 V Max Operating Temperature 85 °C Min Dual Supply Voltage 4.75 V Min Operating Temperature -40 °C Number of A/D Converters 1 Number of Analog Inputs 1 Number of Bits 20 Number of Channels 1 Number of Converters 1 Number of Elements 1 Polarity Bipolar , Unipolar Resolution 20 b Sampling Rate 15 kS/s Supply Type Dual , Analog , Digital Compliance Lead Free Lead Free Radiation Hardening No RoHS Compliant 20-BIT ANALOG-TO-DIGITAL CONVERTER The DDC101 is a precision, wide dynamic range, charge digitizing A/D converter with 20-bit resolution. Lowlevel current output devices, such as photosensors, can bedirectly connected to its input. The most stringent accuracy requirements of many unipolar output sensor applications occur at low signal levels. To meet this requirement, Burr-Brown developed the adaptive delta odulation architecture of the DDC101 to provide linearly improving noise and linearity errors as the input signal level decreases. The DDC101 combines the functions of current-to-voltage conversion, integration, input programmable gain amplification, A/D conversion, and digital filtering to produce precision, wide dynamic range results. The input signal can be a low level current connected directly into the unit or a voltage connected through a user selected resistor. Although the DDC101 is optimized for unipolar signals, it can also accurately digitize bipolar input signals. The patented delta modulation topology combines charge integration and digitization functions. Oversampling and digital filtering reduce system noise dramatically. Correlated Double Sampling (CDS) captures and eliminates steady state and conversion cycle dependent offset and switching errors that are not eliminated with conventional analog circuits. The DDC101 block diagram is shown below. During conversion, the input signal is collected on the Internal integration capacitance for a user determined integration period. A high precision, autozeroed comparator samples the analog input node. Tracking logic updates the internal high resolution D/A converter at a 2MHz rate to maintain the analog input at virtual ground. A user programmable digital filter oversamples the tracking logic’s output. The digital filter passes a low noise, high resolution digital output to the serial I/O register. The serial outputs of multiple DDC101 units can be easily connected together in series or parallel if desired to minimize interconnections.
Data sheet Physical Case/Package DIP Mount Through Hole Number of Pins 16 Technical Drain to Source Resistance 10 Ω Dual Supply Voltage 9 V Max Dual Supply Voltage 20 V Max Operating Temperature 70 °C Max Power Dissipation 842 mW Max Supply Current 1 µA Max Supply Voltage 30 V Min Dual Supply Voltage 4.5 V Min Operating Temperature 0 °C Min Supply Voltage 4.5 V Nominal Supply Current 5 µA Number of Channels 4 On-State Resistance 10 Ω Operating Supply Voltage 18 V Supply Type Single , Dual Termination Through Hole Throw Configuration SPST Turn-Off Delay Time 235 ns Turn-On Delay Time 275 ns Dimensions Height 4.45 mm Length 19.43 mm Width 7.87 mm Compliance Lead Free Lead Free REACH SVHC Unknown Radiation Hardening No RoHS Compliant SWITCH, QUAD SPST, DIP16, 312; Switch Type, Analogue:SPST; Switches, No. of:4; Voltage, Supply Source:Dual; Resistance, On State:6.5ohm; Voltage, Supply Min:4.5V; Voltage, Supply Max:20V; Termination Type:Through Hole; Case Style:DIP; No. of Pins:16; Operating Temperature Range:0°C to +70°C; Base Number:312; IC Generic Number:312; Logic Function Number:312; No. of Channels:4; Resistance, Rds On:10ohm; Temp, Op. Max:70°C; Temp, Op. Min:0°C; Temperature Range, IC:Commercial
Data sheet Physical Case/Package SOIC Mount Surface Mount Number of Pins 8 Technical Gain 6 dB Max Operating Temperature 85 °C Min Operating Temperature -40 °C Compliance Lead Free Lead Free Radiation Hardening No RoHS Compliant The MAX7450/MAX7451/MAX7452 complete front-end video-signal conditioners are designed to improve the quality of standard-definition video signals. The devices restore the DC level of the video input, correct for amplitude errors up to ±6dB, detect fault conditions, and filter out-of-band noise. The MAX7450/MAX7451/ MAX7452 optimize the signal quality for further video processing through a crosspoint switch or video decoder (ADC). Each device integrates an input video clamp, automatic gain control (AGC), loss-of-sync (LOS) detector, and an out-of-band noise/lowpass filter. These devices also incorporate a user-selectable buffer gain (0 or +6dB) and an AGC-disable function. The MAX7450 and MAX7451 operate from dual power supplies of ±5V or ±3.3V respectively, and they restore the video blanking level to GND. The MAX7452 operates from a single +5V supply and features a user-adjustable clamp level. The devices are available in an 8-pin SO package with an exposed pad and are specified for operation over the extended (-40°C to +85°C) temperature range.
Data sheet Physical Case/Package Module Contact Plating Tin Mount Screw Number of Pins 24 Technical -3db Bandwidth 330 Hz Interface SPI Max Operating Temperature 105 °C Max Supply Voltage 5.25 V Min Operating Temperature -40 °C Min Supply Voltage 4.75 V Nominal Supply Current 45 mA Operating Supply Current 45 mA Output Type SPI Sensor Type Accelerometer , Gyroscope , Magnetometer , 3 Axis Dimensions Height 23.504 mm Length 23.45 mm Width 22.964 mm Compliance Lead Free Contains Lead REACH SVHC No SVHC RoHS Compliant The ADIS16400/ADIS16405 iSensor® products are complete inertial systems that include a triaxal gyroscope, a triaxial accelerometer, and a triaxial magnetometer. The ADIS16400/ ADIS16405 combine industry-leading iMEMS® technology with signal conditioning that optimizes dynamic performance. The factory calibration characterizes each sensor for sensitivity, bias, alignment, and linear acceleration (gyroscope bias). As a result, each sensor has its own dynamic compensation for correction formulas that provide accurate sensor measurements over a temperature range of -40°C to +85°C. The magnetometers employ a self-correction function to provide accurate bias performance over temperature, as well. The ADIS16400/ADIS16405 provide a simple, cost-effective method for integrating accurate, multi-axis inertial sensing into industrial systems, especially when compared with the complexity and investment associated with discrete designs. All necessary motion testing and calibration are part of the production process at the factory, greatly reducing system integration time. Tight orthogonal alignment simplifies inertial frame alignment in navigation systems. An improved serial peripheral interface (SPI) and register structure provide faster data collection and configuration control. By using a compatible pinout and the same package as the ADIS1635x and ADIS1636x families, upgrading to the ADIS16400/ADIS16405 requires only firmware changes to accommodate additional sensors and register map updates. These compact modules are approximately 23 mm × 23 mm × 23 mm and provide a flexible connector interface that enables multiple mounting orientation options.
Data sheet Physical Case/Package Module Mount Panel Number of Pins 24 Technical -3db Bandwidth 330 Hz Max Operating Temperature 85 °C Max Supply Voltage 3.6 V Min Operating Temperature -40 °C Min Supply Voltage 3 V Nominal Supply Current 254 mA Operating Supply Current 254 mA Output Type SPI Sensor Type Accelerometer , Gyroscope , Magnetometer , 3 Axis Compliance Lead Free Contains Lead REACH SVHC No SVHC RoHS Compliant APPLICATIONS Platform stabilization and control Navigation Personnel tracking Instrumentation Robotics
Data sheet Physical Case/Package LGA Contact Plating Nickel , Gold Number of Pins 14 Technical Axis X, Y, Z Bandwidth 5.3 kHz Interface I2C , SPI Max Operating Temperature 85 °C Max Supply Voltage 3.6 V Max Supply Voltage (DC) 3.6 V Min Operating Temperature -40 °C Min Supply Voltage 1.71 V Min Supply Voltage (DC) 1.71 V Operating Supply Current 2 µA Output Type Digital Sensor Type 3 Axis Dimensions Height 1 mm Length 2.15 mm Width 2.15 mm Compliance Lead Free Lead Free REACH SVHC No SVHC Radiation Hardening No RoHS Compliant MEMS digital output motion sensor: ultra low-power high performance 3-axis “femto” accelerometer Applications ■ Motion activated functions ■ Display orientation ■ Shake control ■ Pedometer ■ Gaming and virtual reality input devices ■ Impact recognition and logging
