Choose a product:

ThermoPC - The Easy, Accurate, Low-Cost Way to Measure Temperature with a PC

68HC12 Training Kit - Based on the Motorola M68EVB912B32 Micro-controller Board. In-system programming using a PC through the RS232 serial port.

ADP40P - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) 16Cxx PLCC Adapter (with reinforced plug)

ADP40P-LC - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) 16Cxx PLCC Adapter

AR1-AV-2313-D20 - PICE-AVR In Circuit Emulator For AVR A full Project-AVR package includes the MCA-AVR macro assembler, PDS-AVR software debugger/simulator, PICE-AVR in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE. This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the Classic and Tiny AVR® families up to 8 MHz* Uses Atmel AVR® bond-out chips for accurate emulation Up to 256K of 16-bit words of program memory* Up to 256K Bytes of data memory* Finest external data memory mapping with one byte resolution Up to 256K true hardware breakpoints on code memory address access Up to 256K true hardware breakpoints on external data memory access (read, write and read/write) Four complex breakpoin

AR1-AV-2313-D20 + PA-DSO-2003 - PICE-AVR In Circuit Emulator For AVR A full Project-AVR package includes the MCA-AVR macro assembler, PDS-AVR software debugger/simulator, PICE-AVR in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE. This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the Classic and Tiny AVR® families up to 8 MHz* Uses Atmel AVR® bond-out chips for accurate emulation Up to 256K of 16-bit words of program memory* Up to 256K Bytes of data memory* Finest external data memory mapping with one byte resolution Up to 256K true hardware breakpoints on code memory address access Up to 256K true hardware breakpoints on external data memory access (read, write and read/write) Four complex breakpoin

AR1-AV-4433-D28 - PICE-AVR In Circuit Emulator For AVR A full Project-AVR package includes the MCA-AVR macro assembler, PDS-AVR software debugger/simulator, PICE-AVR in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE. This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the Classic and Tiny AVR® families up to 8 MHz* Uses Atmel AVR® bond-out chips for accurate emulation Up to 256K of 16-bit words of program memory* Up to 256K Bytes of data memory* Finest external data memory mapping with one byte resolution Up to 256K true hardware breakpoints on code memory address access Up to 256K true hardware breakpoints on external data memory access (read, write and read/write) Four complex breakpoin

AR1-AV-4433-Q32: QFP-32 - PICE-AVR In Circuit Emulator For AVR A full Project-AVR package includes the MCA-AVR macro assembler, PDS-AVR software debugger/simulator, PICE-AVR in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE. This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the Classic and Tiny AVR® families up to 8 MHz* Uses Atmel AVR® bond-out chips for accurate emulation Up to 256K of 16-bit words of program memory* Up to 256K Bytes of data memory* Finest external data memory mapping with one byte resolution Up to 256K true hardware breakpoints on code memory address access Up to 256K true hardware breakpoints on external data memory access (read, write and read/write) Four complex breakpoin

AR1-AV-8515-D40 - PICE-AVR In Circuit Emulator For AVR A full Project-AVR package includes the MCA-AVR macro assembler, PDS-AVR software debugger/simulator, PICE-AVR in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE. This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the Classic and Tiny AVR® families up to 8 MHz* Uses Atmel AVR® bond-out chips for accurate emulation Up to 256K of 16-bit words of program memory* Up to 256K Bytes of data memory* Finest external data memory mapping with one byte resolution Up to 256K true hardware breakpoints on code memory address access Up to 256K true hardware breakpoints on external data memory access (read, write and read/write) Four complex breakpoin

AR1-AV-8515-L44 - PICE-AVR In Circuit Emulator For AVR A full Project-AVR package includes the MCA-AVR macro assembler, PDS-AVR software debugger/simulator, PICE-AVR in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE. This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the Classic and Tiny AVR® families up to 8 MHz* Uses Atmel AVR® bond-out chips for accurate emulation Up to 256K of 16-bit words of program memory* Up to 256K Bytes of data memory* Finest external data memory mapping with one byte resolution Up to 256K true hardware breakpoints on code memory address access Up to 256K true hardware breakpoints on external data memory access (read, write and read/write) Four complex breakpoin

AR1-AV-8515-Q44 - PICE-AVR In Circuit Emulator For AVR A full Project-AVR package includes the MCA-AVR macro assembler, PDS-AVR software debugger/simulator, PICE-AVR in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE. This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the Classic and Tiny AVR® families up to 8 MHz* Uses Atmel AVR® bond-out chips for accurate emulation Up to 256K of 16-bit words of program memory* Up to 256K Bytes of data memory* Finest external data memory mapping with one byte resolution Up to 256K true hardware breakpoints on code memory address access Up to 256K true hardware breakpoints on external data memory access (read, write and read/write) Four complex breakpoin

AR1-AV-8535-D40 - PICE-AVR In Circuit Emulator For AVR A full Project-AVR package includes the MCA-AVR macro assembler, PDS-AVR software debugger/simulator, PICE-AVR in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE. This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the Classic and Tiny AVR® families up to 8 MHz* Uses Atmel AVR® bond-out chips for accurate emulation Up to 256K of 16-bit words of program memory* Up to 256K Bytes of data memory* Finest external data memory mapping with one byte resolution Up to 256K true hardware breakpoints on code memory address access Up to 256K true hardware breakpoints on external data memory access (read, write and read/write) Four complex breakpoin

AR1-AV-8535-L44 - PICE-AVR In Circuit Emulator For AVR A full Project-AVR package includes the MCA-AVR macro assembler, PDS-AVR software debugger/simulator, PICE-AVR in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE. This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the Classic and Tiny AVR® families up to 8 MHz* Uses Atmel AVR® bond-out chips for accurate emulation Up to 256K of 16-bit words of program memory* Up to 256K Bytes of data memory* Finest external data memory mapping with one byte resolution Up to 256K true hardware breakpoints on code memory address access Up to 256K true hardware breakpoints on external data memory access (read, write and read/write) Four complex breakpoin

AR1-AV-8535-Q44 - PICE-AVR In Circuit Emulator For AVR A full Project-AVR package includes the MCA-AVR macro assembler, PDS-AVR software debugger/simulator, PICE-AVR in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE. This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the Classic and Tiny AVR® families up to 8 MHz* Uses Atmel AVR® bond-out chips for accurate emulation Up to 256K of 16-bit words of program memory* Up to 256K Bytes of data memory* Finest external data memory mapping with one byte resolution Up to 256K true hardware breakpoints on code memory address access Up to 256K true hardware breakpoints on external data memory access (read, write and read/write) Four complex breakpoin

AR1-AV-TY12-D8 - PICE-AVR In Circuit Emulator For AVR A full Project-AVR package includes the MCA-AVR macro assembler, PDS-AVR software debugger/simulator, PICE-AVR in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE. This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the Classic and Tiny AVR® families up to 8 MHz* Uses Atmel AVR® bond-out chips for accurate emulation Up to 256K of 16-bit words of program memory* Up to 256K Bytes of data memory* Finest external data memory mapping with one byte resolution Up to 256K true hardware breakpoints on code memory address access Up to 256K true hardware breakpoints on external data memory access (read, write and read/write) Four complex breakpoin

AR1-AV-TY12-D8 + PA-DSO-0803 - PICE-AVR In Circuit Emulator For AVR A full Project-AVR package includes the MCA-AVR macro assembler, PDS-AVR software debugger/simulator, PICE-AVR in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE. This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the Classic and Tiny AVR® families up to 8 MHz* Uses Atmel AVR® bond-out chips for accurate emulation Up to 256K of 16-bit words of program memory* Up to 256K Bytes of data memory* Finest external data memory mapping with one byte resolution Up to 256K true hardware breakpoints on code memory address access Up to 256K true hardware breakpoints on external data memory access (read, write and read/write) Four complex breakpoin

AR1-MC-1267-D8 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-1267-D8 + PA-DSO-0803 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-17-D40 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-17-L44 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-17-L68 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-17-L84 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-17-Q44: QFP-44 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-17-Q64: QFP-64 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-17-Q80: QFP-80 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-505-D14 + PA-DSO-1403 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-505-D8 + PA-DSO-0803 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-505-D8/14 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-58-D18 + PA-DSO-1803 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-58-D18/28 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-58-D28 + PA-DSO-2803 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-774-D28 + PA-DSO-2803 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-774-D28/40 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-774-L44 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-774-Q44: QFP-4 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-84-D18 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-84-D18 + PA-DSO-1803 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-877-D28 + PA-DSO-2803 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-877-D28/40 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-877-L44: PLCC-44 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-MC-877-Q44: QFP-44 - PICE-MC In Circuit Emulator A full Project-MC package includes the PASM-MC macro assembler, PDS-MC software debugger/simulator, PICE-MC in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE.This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and “burning” it into a target microcontroller or a memory device. Popular third party C compilers can be bundled with the Phyton tools in the Project-MC package. You can select only those tools you need and order the configuration that fits your needs and your budget. Features: Real-time, non-intrusive emulation of the 12/16/17/18 series of Microchip PICmicro™ Uses bond-out chips from Microchip for accurate emulation up to 40 MHz* Up to 128K Bytes of program memory* Up to 128K Bytes of external data memory* Finest memory mapping with one byte resolution Up to 128K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on access to external data memory (128K read, 128K write) Up to 8K of true hardware breakpoints on access to internal data memory (4K read, 4K write) Four complex breakpoints and triggers 16K frames x 128-bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 5KHz to 40 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 2.0V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs a

AR1-XE-060-D24 + PA-DSO-2403 - PICE-XE In Circuit Emulator with Integrated Development Environment A full package includes the CoolRIDE™ compiler kit produced by XEMICS and PDS-XE software debugger/simulator, PICE-XE in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE. This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and "burning" it into a target microcontroller. Features: Real-time, non-intrusive emulation of the XE8000 family of CoolRISC™ microcontrollers Uses XEMICS bond-out chips for accurate emulation up to 60 MHz* Up to 256K of 22-bit words of program memory* Up to 256K Bytes of data memory* Up to 256K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on data memory access (read, write and read/write) Four complex breakpoints and triggers 16K frames x 120 bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 1KHz to 60 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 1,2V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High-speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs and adapters for QFP, SO and other packages Tiny tool - 3-1/2" x 2-1/2" x 2" (95 x 65 x 50 mm) Windows 95/98/2000/NT hosted Project-XE IDE includes all the tools necessary for a full development cycle – from editing source code to “burning” a target microcontroller Project IDE includes an editor, a project manager, a ful

AR1-XE-060-D28 + PA-DSO-2803 - PICE-XE In Circuit Emulator with Integrated Development Environment A full package includes the CoolRIDE™ compiler kit produced by XEMICS and PDS-XE software debugger/simulator, PICE-XE in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE. This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and "burning" it into a target microcontroller. Features: Real-time, non-intrusive emulation of the XE8000 family of CoolRISC™ microcontrollers Uses XEMICS bond-out chips for accurate emulation up to 60 MHz* Up to 256K of 22-bit words of program memory* Up to 256K Bytes of data memory* Up to 256K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on data memory access (read, write and read/write) Four complex breakpoints and triggers 16K frames x 120 bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 1KHz to 60 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 1,2V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High-speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs and adapters for QFP, SO and other packages Tiny tool - 3-1/2" x 2-1/2" x 2" (95 x 65 x 50 mm) Windows 95/98/2000/NT hosted Project-XE IDE includes all the tools necessary for a full development cycle – from editing source code to “burning” a target microcontroller Project IDE includes an editor, a project manager, a ful

AR1-XE-060-Q32 - PICE-XE In Circuit Emulator with Integrated Development Environment A full package includes the CoolRIDE™ compiler kit produced by XEMICS and PDS-XE software debugger/simulator, PICE-XE in-circuit emulator and ChipProg+ universal programmer integrated under control of the project IDE. This tool set provides a complete development cycle, from editing source texts, to getting debugged code, and "burning" it into a target microcontroller. Features: Real-time, non-intrusive emulation of the XE8000 family of CoolRISC™ microcontrollers Uses XEMICS bond-out chips for accurate emulation up to 60 MHz* Up to 256K of 22-bit words of program memory* Up to 256K Bytes of data memory* Up to 256K of true hardware breakpoints on code memory address access Up to 256K of true hardware breakpoints on data memory access (read, write and read/write) Four complex breakpoints and triggers 16K frames x 120 bit real-time tracer with programmable filters and forward, reverse and dynamical modes of trace recording Transparent on-the-fly access to the code memory, shadow memory, breakpoint processor, tracer and timer 48-bit timer provides timing and clock frequency measurement with 0.1% accuracy Precisely programmable clock generator - from 1KHz to 60 MHz* with 0.5% accuracy Programmable regulator precisely auto-adjusts to the target's voltage level and allows working alone at 1,2V to 5.5V settable with +/-20 mV accuracy 8 probe inputs and 4 trigger outputs High-speed host link via 115 KBPS serial port opto-isolated for extra protection Precisely centered “sandwich”- style design based on the universal MR1 main board, changeable PODs and adapters for QFP, SO and other packages Tiny tool - 3-1/2" x 2-1/2" x 2" (95 x 65 x 50 mm) Windows 95/98/2000/NT hosted Project-XE IDE includes all the tools necessary for a full development cycle – from editing source code to “burning” a target microcontroller Project IDE includes an editor, a project manager, a ful

BND-03 - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) 25MHz Drop-in Bondout for PLCC Family Module (CVMXXF)

BND-Dxx - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) Replacement Dip Bondout

BND-Pxx - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) Replacement PLCC Bondout

BSCB BASIC STAMP CARRIER BOARD - BSCB is a low-cost, highly expandable carrier board for BASIC Stamp Microcontroller Modules (BS2).

ChipProg+ - Universal Programmer

CVM-CV16 - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PICmicro Software & Manual ( TDE Debugger, CVASM16 TechTools Design Environment (TDE), CVASM16 )

CVM-MN6 - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC Development Tools Manual (Version 6.0)

CVM03F - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) XX Family Module ( only 1 required for 14bit devices) 14bit Family Module, 25MHz w/Data Breakpoints

CVM1 - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) Main Unit (includes TDE Software, CVASM16 Assembler, PIC Tools Manual,power-supply and cables)

CVM50XM - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC12C508/509 Member Module (8 pin cable Incl.)

CVM55XM - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC16C554/556/558 Module

CVM5XF - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) 5X Family Module (only 1 required for 12bit devices) 12bit Family Module, 20MHz

CVM5XM - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC16C5x Member Module

CVM5XXM - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC16C505,12C508/509,CE518/519 Member Module (8 pin cable Incl.)

CVM6/8M - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC16C61/62x/71/84 Module

CVM61M - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC16C61 Module

CVM625M - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC16CE623/624/625 Module

CVM62XM - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC16C620/621/622 Module

CVM66XM - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC16C641/642/661/662 Module

CVM67XM - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC12C672/672, PIC12CE673/674 Member Module (8 pin cable Incl.)

CVM711M - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC16C70/71/710/711 Module

CVM715M - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC16C715 Module

CVM77M - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC16C66/67/76/77 Module

CVM7XM - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC16C62-65/72-74 Module

CVM87XM - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC16F873/874/876/877 Module

CVMF84M - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PIC16C83/84/F83/F84 Module

CVMPS - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) PICmicro ?Emulator Mathias 7.5VDC Power Supply (US & Canada)

CVMT1 - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) Execution Timing Module

CVMT2 - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) Trace / Timing Module (CVMT1 Functions, plus 16K Trace Buffer)

CVMXXF - PICMicro Emulator Modular style hardware offers complete emulation of the PICmicro? including ALL peripherals. Modular design provides easy expandability and upgrades while reducing initial investment costs. ClearView Mathias includes TDE, a complete Debugging & Development Environment for the Microchip PICmicro?and CVASM16. Seamless environment : Full integration with industry standard assemblers and C compilers Modular Architecture : Usually, a new processor can be supported by simply adding a new member module Source-level debugging : Full access to all registers, memory spaces and peripherals Oscillator : Programmable to any frequency from 32KHz to 25Mhz with parts-per-million accuracy. Timing Functions : Optional Timing Module (Timing Functions are also included with the optional Trace Module) Real-time Trace : Optional 16K Trace buffer captures execution history and 8 external inputs. Also includes 1 external Break input and Timing functions. Data Breakpointing : With Advanced XX Family Module. (upgrades available for older units) Method of selecting Emulated Device: Point & Click. Method of changing "Probe" : External Plug-in module. Method of changing Frequency: Software selectable. Auto detects supported devices: YES "No Skid" Breakpoints : YES Break on Stack Overflow : YES Break on Stack Underflow : YES Break on WDT : YES Emulation Memory : Necessary memory included. Spesifications 600mil to 300mil Adapter DB25M to DB9F Adapter 40, 28 and 18 DIP Cable 6' Serial Cable DC Power supply (Us, Canada & Japan) XX Family Module ( only 1 required for 14bit devices 14bit Family Module, 25MHz )

EconoROM III -

ER3-1M - Ecnomical EPROM Emulator for micro-controller program development. EconoROM is designed for quick, in-circuit firmware test cycles. Our latest version;ER3 will save even more development time by downloading code 5 times faster than the EconoROM II series. Capacity 256Kbit/32K x 8 Speed 45ns

ER3-4M - Ecnomical EPROM Emulator for micro-controller program development. EconoROM is designed for quick, in-circuit firmware test cycles. Our latest version;ER3 will save even more development time by downloading code 5 times faster than the EconoROM II series. Capacity 4Mbit/512K x 8 Speed 45ns

ER3-512 - Ecnomical EPROM Emulator for micro-controller program development. EconoROM is designed for quick, in-circuit firmware test cycles. Our latest version;ER3 will save even more development time by downloading code 5 times faster than the EconoROM II series. Features: Integrated Low-Voltage Support. Target Voltage Sense & Measurement. Powered by target ( Supply current=100mA External Power Option. Jumper-less Address Configuration. Up to 8Mbit Emulation in a single unit. Emulates up to 45ns devices.Target cable(s) included. Fast Downloads (up to 2.5 Mbit per second). Replaces standard EPROM device during development. Connects to any LPT Parallel Port. LPT cable included. Auto/Manual Target Reset on download. Mini-clip cable included for Reset connection. Read-back, Verify and Self-test functions. All sizes and speeds can be Daisy-chained together. Daisy-chain cable included. Batchable loader & utilities included. Accepts Intel HEX, Tektronix HEX, Motorolla ‘S’ records and binary files. TTL and 5v CMOS compatible. 14 day money-back guarantee. 90 day warranty. Unlimited technical support. 3.26" W x 5.63"L x .9"H Includes QuickLoader Software and Full Screen Editor. Free software updates via WEB downloads. Capacity 256Kbit/ 32K x 8 Speed 45ns

ER3-8M - Ecnomical EPROM Emulator for micro-controller program development. EconoROM is designed for quick, in-circuit firmware test cycles. Our latest version;ER3 will save even more development time by downloading code 5 times faster than the EconoROM II series. Capacity 8Mbit/1M x 8 Speed 45ns

FlexiForce A201-1 - The FlexiForce A201 force sensor is an ultra-thin, flexible printed circuit. The force sensors are constructed of two layers of substrate (polyester/polyimide) film. On each layer, a conductive material (silver) is applied, followed by a layer of pressure-sensitive ink. Adhesive is then used to laminate the two layers of substrate together to form the force sensor. The active sensing area is defined by the silver circle on top of the pressure-sensitive ink. Silver extends from the sensing area to the connectors at the other end of the sensor, forming the conductive leads. A201 sensors are terminated with male square pins, allowing them to be easily incorporated into a circuit. The two outer pins of the connector are active and th