HI-8200H / HI-8201H / HI-8202H

The HI-8200H/HI-8201H/HI-8202H are quad single-pole/single-throw (SPST) analog switches with extended temperature ranges of -55˚C to 175˚C for plastic packages and -55˚C to 200˚C for the ceramic CERDIP-16 package. They are optimized for use in high temperature avionics applications. High voltage gate drive is entirely created on-chip enabling +/-12V switching range from a single 3.3V or 5V supply. These switches are ideally suited for high temperature applications demanding low switch leakage when the power pins are 0V.


At 25°C and with VDD from 3.0V to 5.5V, the switch resistance (RON) is typically 8 Ohm. RON is independent of VDD. In a switching range of -5V to +5V, the maximum deviation of RON from flat is less than 5%.


These switches conduct equally well in either direction. Power down and Off state leakages are less than 10nA maximum. Charge injection is less than 10pC. Switching times are typically 180ns to the On state and 60ns to the Off state. The on-board charge pump allows an On/Off cycle time of 5KHz for all four switches simultaneously before the switching range becomes restricted.


The HI-8200H provides four each normally open switches when the switch control inputs are low. The HI-8201H provides four each normally closed switches when the switch control inputs are low. The HI-8202H provides a combination of two normally closed and two normally open switches.



  • Extended Operating Temperature Ranges -55°C to +175°C (plastic packages) and -55°C to +200°C (Ceramic CERDIP-16 package)

  • CMOS analog switches with up to +/-12V switching range from a single 3.3V or 5V supply

  • Low RON: 10 Ohm max across the switching range at 25°C

  • Switch nodes are open-circuit when chip is powered down

  • Robust CMOS Silicon-on-Insulator (SOI) technology

  • SOI switch isolation with 1nA typical Off leakage

  • ESD protection > 4KV HBM

  • Fast switching time with break-before-make

  • Low power



  • High temperature avionics

  • Oil Exploration / Down-Hole Drilling

  • Data Bus Isolation

  • Data Acquisition Systems