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Semiconductors Parts begin by SX, Total parts = 6
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Part number: SX-ISD-100
Description: Fully integrated system allows users to effectively develop, compile, debug and program SX applications from start to finish . Supports SX18/20/28/48/52 . Internal synthesizer support to 105mhz and supports SX parts to full speed at a maximum of 100mhz . Run-time in-system debugging . Real-time code execution . Built-in programmer . High speed parallel port interface . 3-clip external probes: external break input, external oscillator input, GND . Dual-in-line headers provided for direct plug-in test . Source level support includes SASM, SXC and more . Selectable internal frequencies dividing from 16mhz to 32.25khz . Built-in frequency synthesizer, from 25khz to 105mhz . Supports external oscillator circuit via “external oscillator input” clip . Step, run, run to cursor, animate and break functions . Writes to all registers for code testing . One level breakpoint . Unlimited watch variables . Conditional animation break . Adjustable Vdd supply from 2.5V to 5.6V in 0.1V increments . Software animation trace captures three user-defined variables in addition to opcode, W, Mode, STATUS, FSR registers and the corresponding instructions .
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Part number: SX18/20/28AC
Description: The SX18/20/28AC are members of the powerful family of SX Communications controllers. The advanced process combined with RISC-based architecture allows high-speed computation, flexible I/O control, and efficient data manipulation. In addition, the SX architecture is deterministic and totally re-programmable. The unique combination of these characteristics enables the device to implement hard real-time functions as software modules (Virtual PeripheralTM) to replace traditional hardware functions.
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Part number: SX48BD
Description: The SX48BD/SX52BD/SX52BD75/SX52BD100 50MIPS, 75 MIPS, and 100MIPS Communications Controllers are members of the powerful family of SX Communications controllers. The advanced process combined with RISC-based architecture allows high-speed computation, flexible I/O control, and efficient data manipulation. In addition, the SX architecture is deterministic and totally re-programmable. The unique combination of these characteristics enables the device to implement hard real-time functions as software modules (Virtual Peripheral™) to replace traditional hardware functions.
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Part number: SX52BD
Description: The SX48BD/SX52BD/SX52BD75/SX52BD100 50MIPS, 75 MIPS, and 100MIPS Communications Controllers are members of the powerful family of SX Communications controllers. The advanced process combined with RISC-based architecture allows high-speed computation, flexible I/O control, and efficient data manipulation. In addition, the SX architecture is deterministic and totally re-programmable. The unique combination of these characteristics enables the device to implement hard real-time functions as software modules (Virtual Peripheral™) to replace traditional hardware functions.
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Part number: SX52BD100
Description: The SX48BD/SX52BD/SX52BD75/SX52BD100 50MIPS, 75 MIPS, and 100MIPS Communications Controllers are members of the powerful family of SX Communications controllers. The advanced process combined with RISC-based architecture allows high-speed computation, flexible I/O control, and efficient data manipulation. In addition, the SX architecture is deterministic and totally re-programmable. The unique combination of these characteristics enables the device to implement hard real-time functions as software modules (Virtual Peripheral™) to replace traditional hardware functions.
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Part number: SX52BD75
Description: The SX48BD/SX52BD/SX52BD75/SX52BD100 50MIPS, 75 MIPS, and 100MIPS Communications Controllers are members of the powerful family of SX Communications controllers. The advanced process combined with RISC-based architecture allows high-speed computation, flexible I/O control, and efficient data manipulation. In addition, the SX architecture is deterministic and totally re-programmable. The unique combination of these characteristics enables the device to implement hard real-time functions as software modules (Virtual Peripheral™) to replace traditional hardware functions.
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