HS-RTX2010RH

Features:

• Electrically Screened to SMD # 5962-95635
• QML Qualified per MIL-PRF-38535 Requirements
• Fast 125ns Machine Cycle
• 1.2µM TSOS4 CMOS/SOS Process
• Total Dose Capability . . . . . . . . . . . . . . . . . . 300KRad(Si)
• Single Event Upset Critical LET . . . . . . . >120MeV/mg/cm2
• Single Event Upset Error Rate . . . . <1 x 10-10 Errors/Bit-Day
(Note)
• -55 - 125, 5V ±10% Operation
• Single Cycle Instruction Execution
• Fast Arithmetic Operations
       - Single Cycle 16-Bit Multiply
       - Single Cycle 16-Bit Multiply Accumulate
       - Single Cycle 32-Bit Barrel Shift
       - Hardware Floating Point Support
• C Software Development Environment
• Direct Execution of Fourth Language
• Single Cycle Subroutine Call/Return
• Four Cycle Interrupt Latency
• On-Chip Interrupt Controller
• Three On-Chip 16-Bit Timer/Counters
• Two On-Chip 256 Word Stacks
• ASIC Bus™ for Off-Chip Architecture Extension
• 1 Megabyte Total Address Space
• Word and Byte Memory Access
• Fully Static Design - DC to 8MHz Operation
• 84 Lead Quad Flat Package or 85 Pin Grid Array
• Third Party Software and Hardware Development Systems


Application

• Space Systems Embedded Control
• Digital Filtering
• Image Processing
• Scientific Instrumentation
• Optical Systems
• Control Systems
• Attitude/Orbital Control


Pinout




Description

The HS-RTX2010RH is a radiation-hardened 16-bit microcontroller with on-chip timers, an interrupt controller, a multiply-accumulator, and a barrel shifter. It is particularly well suited for space craft environments where very high speed control tasks which require arithmetically intensive calculations, including floating point math to be performed in hostile space radiation environments.

This processor HS-RTX2010RH incorporates two 256-word stacks with multitasking capabilities, including configurable stack partitioning and over/underflow control.

Instruction execution times of one or two machine cycles are achieved by utilizing a stack oriented, multiple bus architecture. The high performance ASIC Bus, which is unique to the RTX product, provides for extension of the microcontroller architecture using off-chip hardware and application specific I/O devices.

RTX Microcontrollers support the C and Forth programming languages. The advantages of this product are further enhanced through third party hardware and software support. Combined, these features make the HS-RTX2010RH an extremely powerful processor serving numerous applications in high performance space systems. The HS-RTX2010RH has been designed for harsh space radiation environments and features outstanding Single Event Upset (SEU) resistance and excellent total dose response.