D2764A

D3625A

IC Interface 3625/D3625A1 INTEL memory prog. non volatille KX4=1 DIP

D8031AH

CDIP 40/I°/8-BIT CONTROL-ORIENTED MICROCONTROLLERS

DRV591VFPRG4

Data sheet  Physical   Case/Package LQFP Contact Plating Gold Number of Pins 32 Weight 0.0063 oz Technical   Max Operating Temperature 85 °C Max Supply Voltage 5.5 V Min Operating Temperature -40 °C Min Supply Voltage 2.8 V Nominal Supply Current 6.2 mA Quiescent Current 7 mA Compliance   Lead Free Lead Free RoHS Compliant High-Efficiency PWM Power Driver 32-HLQFP

CD4050BF3A

Data sheet Physical   Case/Package CDIP Contact Plating Tin , Lead Mount Through Hole Number of Pins 16 Technical   High Level Output Current -5.2 mA Logic Function Buffer Low Level Output Current 26 mA Max Operating Temperature 125 °C Max Supply Voltage 20 V Min Operating Temperature -55 °C Min Supply Voltage -500 mV Number of Bits 6 Number of Channels 6 Number of Elements 6 Number of Inputs 6 Number of Outputs 6 Polarity Non-Inverting Propagation Delay 140 ns Quiescent Current 20 µA Turn-On Delay Time 140 ns Compliance   Lead Free Contains Lead Radiation Hardening No RoHS Compliant CMOS Hex Non-Inverting Buffer/Converter 16-CDIP -55 to 125

SNJ54HCT240J

Data sheet  Physical   Case/Package CDIP Contact Plating Tin , Lead Mount Through Hole Number of Pins 20 Technical   High Level Output Current -6 mA Logic Function Buffer Low Level Output Current 6 mA Max Operating Temperature 125 °C Max Supply Voltage 5.5 V Min Operating Temperature -55 °C Min Supply Voltage 4.5 V Number of Bits 8 Number of Channels 8 Number of Elements 2 Number of Inputs 8 Number of Outputs 8 Operating Supply Voltage 5 V Polarity Inverting Propagation Delay 79 ns Quiescent Current 8 µA Compliance   Lead Free Contains Lead Radiation Hardening No RoHS Compliant
  
Octal Buffers And Line Drivers CMOS Logic With 3-State Outputs 20-CDIP -55 to 125

UC2901DG4

SN55ALS195J

Physical   Case/Package CDIP Number of Pins 16 Compliance   Lead Free Contains Lead RoHS Non-Compliant Quadruple Differential Line eceiver 16-CDIP -55 to 125

AD707AQ

Data sheet Physical   Case/Package CDIP Mount Through Hole Number of Pins 8 Technical   Common Mode Rejection Ratio 120 dB Input Offset Voltage (Vos) 90 µV Max Dual Supply Voltage 22 V Max Operating Temperature 85 °C Min Operating Temperature -40 °C Number of Elements 1 Power Dissipation 500 mW Power Supply Rejection Ratio (PSRR) 110 dB Slew Rate 0.3 V/µs Compliance   RoHS Non-Compliant

TMS27C02012JL

Physical   Case/Package CDIP Compliance   Lead Free Contains Lead RoHS Non-Compliant 2 097 152-Bit Programmable ead-Only Memory 32-CDIP 0 to 70

AT17LV010-10CU

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.

AT17LV010-10CI

Data sheet  Physical   Number of Pins 8 Technical   Frequency 15 MHz 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 4.5 V Nominal Supply Current 10 mA Compliance   Lead Free Contains Lead RoHS Compliant The AT17LV series FPGA Configuration EEPROMs (Configurators) provide an easyto-use, cost-effective configuration memory for Field Programmable Gate Arrays. The AT17LV series device is packaged in the 8-lead LAP, 8-lead PDIP, 8-lead SOIC, 20- lead PLCC, 20-lead SOIC, 44-lead PLCC and 44-lead TQFP, see Table 1-1. The AT17LV series Configurators uses a simple serial-access procedure to configure one or more FPGA devices. The user can select the polarity of the reset function by programming four EEPROM bytes. These devices also support a write-protection mechanism within its programming mode. The AT17LV series configurators can be programmed with industry-standard programmers, Atmel’s ATDH2200E Programming Kit or Atmel’s ATDH2225 ISP Cable.

ADIS16405 BMLZ

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.