Part No .:
D2764AManufacturer:
IntelDescription:
ICRemark:
new originLast Updated:
2026/02/15
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.
Data sheet Physical Case/Package SOIC Contact Plating Tin Number of Pins 24 Technical Conversion Rate 400 S/s Differential Output No Integral Nonlinearity (INL) 0.012 LSB Interface SPI , Serial Max Input Voltage 4.995 V Max Operating Temperature 85 °C Max Output Voltage 9.5 V Max Power Dissipation 176 mW Max Supply Voltage 32 V Min Input Voltage 5.005 V Min Operating Temperature -40 °C Min Output Voltage 29.5 V Min Supply Voltage 12 V Nominal Supply Current 4.2 mA Number of Bits 16 Number of Channels 1 Number of Converters 1 Number of D/A Converters 1 Number of DAC Channels 1 Number of Outputs 1 Output Type Voltage Polarity Unipolar , Bipolar Reference Voltage 5 V Resolution 16 b Sampling Rate 400 S/s Settling Time 2.5 ms Termination SMD/SMT Dimensions Height 2.65 mm Length 15.6 mm Width 7.6 mm Compliance Lead Free Contains Lead REACH SVHC No SVHC Radiation Hardening No RoHS Compliant The AD420 is a complete digital to current loop output converter, designed to meet the needs of the industrial control market. It provides a high precision, fully integrated, low cost single-chip solution for generating current loop signals in a compact 24-pin SOIC or PDIP package. The output current range can be programmed to 4 mA-20 mA, 0 mA-20 mA or an overrange function of 0 mA-24 mA. The AD420 can alternatively provide a voltage output from a separate pin that can be configured to provide 0 V-5 V, 0 V-10 V, ±5 V or ±10 V with the addition of a single external buffer amplifier. The 3.3 M Baud serial input logic design minimizes the cost of galvanic isolation and allows for simple connection to commonly used microprocessors. It can be used in three-wire or asynchronous mode and a serial-out pin is provided to allow daisy chaining of multiple DACs on the current loop side of the isolation barrier. The AD420 uses sigma-delta (SD) DAC technology to achieve 16-bit monotonicity at very low cost. Full-scale settling to 0.1% occurs within 3 ms. The only external components that are required (in addition to normal transient protection circuitry) are three low cost capacitors which are used in the DAC output filter. If the AD420 is going to be used at extreme temperatures and supply voltages, an external output transistor can be used to minimize power dissipation on the chip via the "BOOST" pin. The FAULT DETECT pin signals when an open circuit occurs in the loop. The on-chip voltage reference can be used to supply a precision +5 V to external components in addition to the AD420 or, if the user desires temperature stability exceeding 25 ppm/°C, an external precision reference such as the AD586 can be used as the reference. The AD420 is available in a 24-pin SOIC and PDIP over the industrial temperature range of -40°C to +85°C.
Physical Case/Package SSOP Mount Surface Mount Number of Pins 16 Technical Logic Function Multiplexer Max Dual Supply Voltage 20 V Max Operating Temperature 85 °C Max Supply Voltage 30 V Min Dual Supply Voltage 4.5 V Min Operating Temperature -40 °C Min Supply Voltage 4.5 V On-State Resistance 400 Ω Operating Supply Current 1 µA Supply Type Single , Dual Compliance Radiation Hardening No RoHS Non-Compliant Maxim Integrated MAX339EEE+T Analog Multiplexer Dual 4:1 16-Pin QSOP T/R
Data sheet Physical Mount Surface Mount Number of Pins 16 Technical Max Operating Temperature 125 °C Min Input Voltage 2.2 V Min Operating Temperature 0 °C Number of Outputs 1 Output Current 1.5 A Quiescent Current 400 µA Compliance RoHS Compliant IC REGULATOR DDR TERM 16WQFN
Data sheet Physical Mount Surface Mount Number of Pins 28 Technical Max Duty Cycle 100% Max Operating Temperature 105 °C Min Operating Temperature -40 °C Number of Outputs 1 Operating Supply Current 1.5 mA Operating Supply Voltage 5.5 V Output Current 20 A Output Voltage 1.12 V Switching Frequency 600 kHz Compliance RoHS Compliant Quick PWM NVIDIA CPU Controller 28-Pin TQFN EP
Data sheet Physical Case/Package R Number of Pins 8 Technical Common Mode Rejection Ratio 110 dB Dual Supply Voltage 15 V Gain Bandwidth Product 75 kHz Input Bias Current 20 nA Input Offset Voltage (Vos) 500 µV Max Dual Supply Voltage 18 V Max Operating Temperature 125 °C Max Supply Voltage 36 V Min Dual Supply Voltage 1.5 V Min Operating Temperature -40 °C Min Supply Voltage 3 V Nominal Supply Current 300 µA Number of Amplifiers 2 Number of Channels 2 Number of Circuits 2 Number of Elements 2 Operating Supply Current 350 µA Operating Supply Voltage 28 V Output Current per Channel 25 mA Power Supply Rejection Ratio (PSRR) 110 dB Quiescent Current 150 µA Slew Rate 0.03 V/µs Unity Gain Bandwidth Product 75 kHz Voltage Gain 140 dB Compliance Lead Free Contains Lead Radiation Hardening No RoHS Compliant Rail-to-rail output swing combined with dc accuracy are the key features of the OP495 quad and OP295 dual CBCMOS operational amplifiers. By using a bipolar front end, lower noise and higher accuracy than those of CMOS designs have been achieved. Both input and output ranges include the negative supply, providing the user with zero-in/zero-out capability. For users of 3.3 V systems such as lithium batteries, the OP295/OP495 are specified for 3 V operation. Maximum offset voltage is specified at 300 µV for 5 V operation, and the open-loop gain is a minimum of 1000 V/mV. This yields performance that can be used to implement high accuracy systems, even in single-supply designs. The ability to swing rail-to-rail and supply 15 mA to the load makes the OP295/OP495 ideal drivers for power transistors and H bridges. This allows designs to achieve higher efficiencies and to transfer more power to the load than previously possible without the use of discrete components. For applications such as transformers that require driving inductive loads, increases in efficiency are also possible. Stability while driving capacitive loads is another benefit of this design over CMOS rail-to-rail amplifiers. This is useful for driving coax cable or large FET transistors. The OP295/OP495 are stable with loads in excess of 300 pF. The OP295 and OP495 are specified over the extended indus-trial (-40°C to +125°C) temperature range. The OP295 is available in 8-lead PDIP and 8-lead SOIC_N surface-mount packages. The OP495 is available in 14-lead PDIP and 16-lead SOIC_W surface-mount packages. Applications Battery-operated instrumentation Servo amplifiers Actuator drives Sensor conditioners Power supply control
Data sheet Physical Case/Package QFN Contact Plating Tin Mount Surface Mount Number of Pins 48 Technical Frequency 1 MHz Max Input Voltage 5.5 V Max Operating Temperature 85 °C Max Output Current 1.2 A Max Output Voltage 5.5 V Max Power Dissipation 2.105 W Max Supply Voltage 5.5 V Min Input Voltage 2.6 V Min Operating Temperature -40 °C Min Output Voltage 700 mV Min Supply Voltage 2.4 V Number of Outputs 1 Output Current 1.3 A Output Voltage 1.25 V Power Dissipation 2.1 W Switching Frequency 1 MHz Termination SMD/SMT Compliance Lead Free Lead Free Radiation Hardening No RoHS Compliant High-Efficiency, Low-IQ PMICs with Dynamic Core for PDAs and Smartphones
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.
OP Amp Single GP ±18V 8-Pin CDIP Physical Case/Package CDIP Mount Through Hole Number of Pins 8 Technical Common Mode Rejection Ratio 140 dB Input Bias Current 2 nA Input Offset Voltage (Vos) 25 µV Max Dual Supply Voltage 22 V Max Operating Temperature 125 °C Min Dual Supply Voltage 3 V Min Operating Temperature -55 °C Number of Elements 1 Power Supply Rejection Ratio (PSRR) 123.1 dB Slew Rate 0.3 V/µs Voltage Gain 141.58 dB Compliance RoHS Non-Compliant
Data sheet Physical Case/Package P Number of Pins 8 Weight 0.018646 oz Technical Max Operating Temperature 70 °C Max Output Current 100 mA Max Supply Voltage 36 V Min Operating Temperature 0 °C Min Supply Voltage 2.2 V Operating Supply Current 500 µA Output Current 100 mA Reference Voltage 1.3 V Dimensions Height 4.57 mm Length 9.81 mm Width 6.35 mm Compliance Lead Free Lead Free Radiation Hardening No RoHS Compliant Power Supply Support Precision Analog Controller
data sheet Physical Case/Package PLCC Contact Plating Tin Number of Pins 20 Technical Dual Supply Voltage 15 V High Level Output Current 30 mA Interface Parallel Max Dual Supply Voltage 22 V Max Operating Temperature 85 °C Max Power Dissipation 470 mW Max Supply Current 1 mA Max Supply Voltage 25 V Min Operating Temperature -40 °C Number of Bits 4 Number of Channels 4 Number of Circuits 4 Number of Inputs 4 Number of Outputs 4 On-State Resistance 115 Ω Operating Supply Voltage 5 V Polarity Non-Inverting Supply Type Dual Throw Configuration SPST Turn-Off Delay Time 450 ns Turn-On Delay Time 600 ns Dimensions Height 4.53 mm Length 8.89 mm Width 8.89 mm Compliance Lead Free Contains Lead RoHS Compliant The ADG211A is a monolithic CMOS device comprising four independently selectable switches. They are designed on an enhanced LC2MOS process which gives an increased signal handling capability of ±15 V. These switches also feature high switching speeds and low RON. The ADG211A switches are turned on with a logic low on the appropriate control input. Each switch conducts equally well in both directions when ON and each has an input signal range that extends to the supplies. All switches exhibit break-before-make switching action for use in multiplexer applications. Inherent in the design is low charge injection for minimum transients when switching the digital inputs.
