In-System Programmers
ChipProg-ISP2; CP12-B1 device programmers
The CPI2-B1 device programmer belongs to the ChipProg-ISP2 family of Phyton in-system production device programmers, designed for use with ATE, ICT, programming fixtures and automated handlers. It can also be used for development, and in stand-alone mode for field service. CPI2-B1 can be used for programming microcontrollers, flash memory and programmable logical devices. Use of some CPI2-B1 programming features requires purchasing additional software licenses:
- The CPI2-ACI license is tied to the programmer\’s hardware and enables remote control via DLL and other options.
- CPI2-D-XXXX target-specific Device Driver Library licenses enable programming support for a certain group of devices.
The price of a device programmer is the total of prices of hardware and optional licenses: CPI2-ACI and target-specific Device Driver Library license(s).
ChipProg-ISP2; CP12-Gxxxx device programmers
ChipProg-ISP2 series of new Phyton device programmers includes CPI2-Gxxxx gang programmers intended for embedding into programming fixtures, ATE, ICT, and automated handlers for mass device programming. The series, based on a CPI2 programming engine, currently supports thousands of in-system programmable microcontrollers, flash memory and programmable logical devices (PLDs). CPI2-Gxxxx programmers are available in two design configurations. Each configuration contains a compact motherboard, along with:
- upright-positioned (perpendicular to the motherboard) CPI-GM1 plug-in modules (2 to 7 modules);
- planar-positioned (parallel to the motherboard) CPI-GM1 plug-in modules (2 to 4 modules).
Order code pattern is: CPI2-Gxx/yyPN, where:
- CPI2 – the family abbreviation;
- G – type of the programmer: gang;
- xx – number of direct programming channels (CPI2-GM1 modules plugged to motherboard);
- yy – number of multiplexed programming channels;
- P – orientation of the programming modules with respect to the motherboard: V for upright position, H –for planar;
- N – hardware revision (1, 2, etc.)
ChipProg-ISP – universal in-system programmer for engineering and manufacturing
- Supports in-system programming for a variety of embedded microcontrollers, serial EEPROM & flash memory devices.
- Palm size tool – 4″x2½”x1″ (100x70x25 mm).
- Communicate to a PC via a USB 2.0 compatible port.
- Any number of concurrently working ChipProg-ISP chip burners can be driven from one computer or via a USB active hub.
- Does not require an additional power adapter for the programming – the power is taken from the computer USB port.
- Has a standard 14-pin connector for plugging changeable ISP cables connecting to the target.
- The output connector is protected against incorrect connection to the target.
- Being based on four independently working 32-bit microcontrollers and FPGAs, provides very fast loading & programming.
- Works under control of Windows XP and Windows 7 32- and 64-bit versions. Easy-to-use and intuitive user interface.
- Allows to work in a multi-programmer mode – unlimited number of ChipProg-ISP units can be driven from one computer.
- ‘Start’ button for fast manual operations programmable to execute a single operation or a batch of them.
- Vpp and other parameters precise adjustment via the software settings.
- Project management – you can create, open and store an unlimited number of projects in the programmer software shell.
- Supports loading files of all popular formats: Intel HEX, Binary, Motorola S-format, POF, JEDEC, PRG, ASCII Hex & Octal, etc.
- Built-in editor supports sophisticated operations with blocks.
- Splits files to multiple images.
- Embedded script language for automation of routine operations.
- Serialization of the programmed devices by writing a serial number into a specified target memory location.
- Calculation of the control sum with capability to write it into a specified target memory location.
- A unique signature can be written into a specified target memory location.
- Advanced self-diagnostic start-up routine that check the target device reliable contact through the ISP programming cable.
- Incorrect device connection check and overcurrent protection.
- Lifetime free software updates via Web.
In-Socket Programmers
ChipProg-481 universal programmer for engineering and manufacturing
- Extremely fast! Programs and verifies programming of 1Gb NAND flash memory device for 23 s! Targeted at working with large density NAND and NOR flash memory devices.
- Supports parallel and serial Flash memory devices, EPROM, EEPROM, microcontrollers with embedded Flash and OTP memory and PAL/PALCE/GAL/PEEL/PLD devices.
- Programs all DIP-packed device from 6 to 48 pin via a 48-pin pin ZIF DIP socket – no additional adapters are required.
- Optional adapters for programming devices in PLCC, SOIC, SSOP, QFP, BGA, QFN, SON and other packages are available.
- Supports in-system programming for the devices allowing the ISP (ICP) mode via special cables-adapters.
- Communicates to a PC via a high speed USB 2.0 port.
- Being based on a fast 32-bit microcontroller and a FPGAs, provides very fast loading & programming.
- Works under control of Windows XP and Windows 7 32- and 64-bit versions. Easy-to-use and intuitive user interface.
- Allows to work in a multi-programmer mode – unlimited number of ChipProg units can be driven from one computer.
- ‘Start’ button for fast manual operations programmable to execute a single operation or a batch of them.
- Supports loading files of all popular formats: Intel HEX, Binary, Motorola S-format, POF, JEDEC, PRG, ASCII Hex & Octal, etc.
- Built-in editor supports sophisticated operations with blocks.
- Vpp and other parameters precise adjustment via the software settings.
- Splits files to multiple images.
- Embedded script language for automation of routine operations.
- Serialization of the programmed devices by writing a serial number into a specified target memory location.
- Calculation of the control sum with capability to write it into a specified target memory location.
- A unique signature can be written into a specified target memory location.
- Advanced self-diagnostic start-up routine that check the target device reliable contact in the programming socket.
- Incorrect device insertion check and overcurrent protection; automatically detects bad contacts before starting any operation.
- Lifetime free software updates via Web.
- Very small – 160x90x25 mm (6¼x3¾x1 inch).
ChipProg-48 universal programmer for engineering and manufacturing
- Supports parallel and serial Flash memory devices, EPROM, EEPROM, microcontrollers with embedded Flash and OTP memory and PAL/PALCE/GAL/PEEL/PLD devices.
- Programs all DIP-packed device from 6 to 48 pin via a 48-pin pin ZIF DIP socket – no additional adapters are required.
- Optional adapters for programming devices in PLCC, SOIC, SSOP, QFP, BGA, QFN, SON and other packages are available.
- Provides very fast operations – programs a 64 MBit NOR flash memory device for less than 50 sec.
- Supports in-system programming for the devices allowing the ISP (ICP) mode via special cables-adapters.
- Communicates to a PC via a USB 2.0 compatible port.
- Being based on a fast 32-bit microcontroller and an FPGA, provides very fast loading & programming.
- Works under control of Windows XP and Windows 7 32- and 64-bit versions. Easy-to-use and intuitive user interface.
- Allows to work in a multi-programmer mode – unlimited number of ChipProg units can be driven from one computer.
- ‘Start’ button for fast manual operations programmable to execute a single operation or a batch of them.
- Supports loading files of all popular formats: Intel HEX, Binary, Motorola S-format, POF, JEDEC, PRG, ASCII Hex & Octal, etc.
- Built-in editor supports sophisticated operations with blocks.
- Vpp and other parameters precise adjustment via the software settings.
- Splits files to multiple images.
- Embedded script language for automation of routine operations.
- Serialization of the programmed devices by writing a serial number into a specified target memory location.
- Calculation of the control sum with capability to write it into a specified target memory location.
- A unique signature can be written into a specified target memory location.
- Advanced self-diagnostic start-up routine that check the target device reliable contact in the programming socket.
- Incorrect device insertion check and overcurrent protection; automatically detects bad contacts before starting any operation.
- Lifetime free software updates via Web.
- Very small – 160x90x25 mm (6¼x3¾x1 inch).
ChipProg-40 universal programmer for engineering and manufacturing
- Supports parallel & serial Flash memory devices, EPROM, EEPROM and microcontrollers with embedded Flash memory.
- Programs all DIP-packed device from 6 to 40 pin via a 40-pin pin ZIF DIP socket – no additional adapters are required.
- Optional adapters for programming devices in PLCC, SOIC, SSOP, QFP, BGA, QFN, SON and other packages are available.
- Provides very fast operations – programs a 64 MBit NOR flash memory device for less than 50 sec.
- Supports in-system programming for the devices allowing the ISP (ICP) mode via special cables-adapters.
- Communicate to a PC via a USB 2.0 compatible port.
- Being based on a fast 32-bit microcontroller and a FPGA provides very fast loading & programming.
- Works under control of Windows XP and Windows 7 32- and 64-bit versions. Easy-to-use and intuitive user interface.
- Allows to work in a multi-programmer mode – unlimited number of ChipProg units can be driven from one computer.
- ‘Start’ button for fast manual operations programmable to execute a single operation or a batch of them.
- Supports loading files of all popular formats: Intel HEX, Binary, Motorola S-format, POF, JEDEC, PRG, ASCII Hex & Octal, etc.
- Built-in editor supports sophisticated operations with blocks.
- Vpp and other parameters precise adjustment via the software settings.
- Splits files to multiple images.
- Embedded script language for automation of routine operations.
- Serialization of the programmed devices by writing a serial number into a specified target memory location.
- Calculation of the control sum with capability to write it into a specified target memory location.
- A unique signature can be written into a specified target memory location.
- Advanced self-diagnostic start-up routine that check the target device reliable contact in the programming socket.
- Incorrect device insertion check and overcurrent protection; automatically detects bad contacts before starting any operation.
- Lifetime free software updates via Web.
- Very small – 160x90x25 mm (6¼x3¾x1 inch).
Gang Programmers
CP12-B1
Multiple CPI2-B1 programmers controlled by a single computer can form a gang programming system with up to 72 programmers.
ChipProg-G41
The ChipProg-G41 parallel device programmer enables concurrent in-socket programming of up to four devices. About 500 different Phyton socket adapters are available.
ChipProg’s
Multiple ChipProg-481, ChipProg-48, ChipProg-40 or ChipProg-ISP single-site device programmers of the same type can be connected in a programming cluster controlled by single computer.
Development Tools for 8051 Microcontrollers
PICE-52 In-Circuit Emulator
Main Features
- Real-time non-intrusive emulation for selected 8051 microcontrollers;.
- Tiny emulator header that plugs directly into a target socket – 95x70x40 mm;.
- Connects to a PC USB or serial port;.
- Up to 2M bytes program memory & 512K data memory (64K + 64K by default);.
- Memory banking – up to 32 banks by 64K;.
- Memory mapping between the ICE and target with 256 bytes resolution;.
- Up to 1M true hardware breakpoints at Program memory and memory access breakpoints;.
- Up to 1M true hardware breakpoints at Xdata memory access for Read & Write;.
- Breakpoints on access to on-chip data memories: SFRs, direct data memory, on-chip Xdata, etc.;.
- 4 complex breakpoints / triggers;.
- Up to 64K frame deep by 128 bit wide trace buffer (16K x 128K by default);.
- Trace cable with 8 micro hooks for entering signals and two hooks for outputting triggers;.
- Precisely programmable clock generator;.
- 48-bit on-board timer;.
- Shadow RAM provides target device RAM real-time access without disturbing emulation;.
- “On-the-fly” access to the memory, breakpoints, tracer, and timer;.
- Memory coverage feature enables finding “dead” code;.
- Precisely controlled voltage regulator 2.0 to 5.5V range;.
- Integrated development environment;.
- Project-level support for the Phyton assembler and C compilers from Keil, IAR and Raisonance;.
- Source-level debugging for all popular C compilers and assemblers;.
There are three main board configurations:
- MR2-52-03U – provides emulation for 64K code + 64K data memory, does not support external memory banking;
- MR2-52-05U – provides emulation for 1M code + 448K data memory, supports external memory banking.
- MR2-52-06U – provides emulation for 2M code + 448K data memory, supports external memory banking.
A POD or a daughter module is built around an execution processor that emulates a behavior of the target MCU being under control of the loaded application program. PICE-52 can be equipped with a variety of changeable PR2-52-xxx pods. An Adapter provides mechanical connection of the emulator pod to the target board. It plugs directly to a DIP-40, PLCC-44 or QFP-44 target socket.
Development Tools for 80C196 Microcontrollers
PICE-196 In-Circuit Emulator
The image above displays an assembled PICE-196 emulator. This is a palm-size header comprised of three stackable boards: a Main Board, POD, and Adapter (from top to bottom). The Trace Cable allows to trace external signals and output triggers.
Features Summary
- Real-time non-intrusive emulation for most of the 80C196 MCUs up to 25 MHz.
- Tiny emulator header that plugs directly into a target socket – 80x75x50 mm (3x3x2 in.).
- Up to 256K bytes program memory & 256K data memory (64K & 64K by default).
- Memory mapping between the ICE and target with the finest possible resolution – one word.
- Up to 512K true hardware breakpoints.
- 4 complex breakpoints / triggers.
- Up to 64K frame deep by 64 bit wide trace buffer (16K x 64K by default).
- 48-bit on-board timer.
- Shadow RAM provides target device RAM real-time access without disturbing emulation.
- “On-the-fly” access to the memory, breakpoints, tracer, and timer.
- 8 probe inputs and 1 trigger output.
- Embedded programmable READY and BUSWIDTH signal generators.
- Connects to a PC serial port via a light cable opto-isolated for extra protection.
- Integrated development environment Project-96 that includes an editor, a project manager, the MCA-96 macro assembler.
- Source level and project level support for the Phyton MCC-96 compiler and MCA-96 macro assembler.
- Source level debugging for all popular C compilers and assemblers: IAR, TASKING, Intel.
- The PDS-96 software simulator supporting KB, KC and KD derivatives supplied optionally.
- Download full versions of the PICE-196, Project-96 IDE and MCA-96 macro assembler.
There are three main board configurations:
- MR2-52-03U – provides emulation for 64K code + 64K data memory, does not support external memory banking;
- MR2-52-05U – provides emulation for 1M code + 448K data memory, supports external memory banking.
- MR2-52-06U – provides emulation for 2M code + 448K data memory, supports external memory banking.
Development Tools for Sensory RSC4x Microcontrollers
PDS-SE – Debugger/Simulator for RSC4x microcontrollers
Main features:
- Comes with any Project-SE configuration as an embedded tool.
- Provides command set and interrupt simulation for all RSC-4x derivatives.
- Provides source-level and symbolic debugging for the MCC-SE C compiler and MCA-SE macro assembler.
- Special Function Registers are implemented as just memory locations and are not modified by simulator engine as a result of peripheral devices simulation. Writing to these locations does not affect the simulation engine behavior.
- Context variable viewing in the Source window.
- Maintains precise time counter.
- Performance analyzer works automatically.
- Unlimited number of unconditional and conditional (complex) breakpoints.
- Function call list and stack tracing.
- Script file built-in language helps to save time for debugging for routine operations and tests.
- External Environment Simulation (EES) feature.
- Download the IDE with an unlimited MCA-SE assembler, PDS-SE simulator and 14-days time-limited MCC-SE compiler.
MCA-SE – Macro Assembler for Sensory RSC-4x microcontrollers
Main features:
- Comes with any Project-SE configuration.
- Supports all RSC-4x derivatives.
- Strict operand type checking.
- Extensive set of 32-bit arithmetic and logical operators.
- Local names (labels) in functions and macros.
- Powerful macro capabilities.
- Three kinds of repeating blocks.
- Code memory banking support.
- RAM bank mapping support to access the full RSC-4x on-chip SRAM.
- Generates symbolic debug information for the Phyton PICE-SE emulator and PDS-SE debugger/simulator.
- Easy and safe integration with the Phyton MCC-SE C compiler and PDS-SE source-level debugger/simulator.
- Download the IDE with an unlimited MCA-SE assembler, PDS-SE simulator and 14-days time-limited MCC-SE compiler.
MCC-SE – C compiler for Sensory RSC-4x microcontrollers
Main features:
- Supports all RSC-4x derivatives.
- Conforms to the ANSI/ISO 9899-1990 standard.
- Produces compact and effective code.
- Supports in-line MCA-SE assembly and intrinsic functions for efficiency.
- Allows writing the interrupt routines in C language.
- Allows flexible variable allocation (in on-chip SRAM, ROM and external RAM/Flash memories).
- Supports four different memory models.
- Supports code memory banking for programs up to 128K.
- Generates complete symbol and type information for the Phyton PICE-SE emulator and PDS-SE debugger/simulator.
- More than 100 ANSI C library functions and RSC-4x runtime support libraries with source files.
- Software floating point library for single precision operation.
- Interfaces with Sensory Quick T2SI™ (text to speaker independent) technology libraries.
- Download the IDE with an unlimited MCA-SE assembler, PDS-SE simulator and 14-days time-limited MCC-SE compiler.