Acroview Programmer AP8000 to Support the Programming of AdvanceChip‘s 32-bit Fixed-point Digital Signal Processor ADP32F035QP80S
Core Recording Micro Semiconductor recently released the latest programming software update and a list of newly supported chip models. Among them, the 32-bit fixed-point digital signal processor ADP32F035QP80S of Advancechip has been adopted by Core Recording Micro's general programming platform AP8000.
The ADP32F035QP80S is a 32-bit fixed-point digital signal processor that is as effective at DSP arithmetic tasks as it is at system control tasks typically handled by microcontroller devices. This efficiency eliminates the need for a second processor in many systems. The 32x32-bit MAC function and its 64-bit processing capability allow the device to effectively handle higher digital resolution issues.
The ADP32F035QP80S internally has a fast interrupt response with automatic context saving of key registers, enabling the device to handle many asynchronous events with minimal delay. The device also has an 8-stage deep-protected pipeline with pipelined memory access. This pipelining allows the device to execute instructions at high speeds without the need for expensive high-speed memory. Special branch lookahead hardware greatly reduces the delay caused by discontinuous conditions, and special store conditional operations further improve performance.
Product Features:
• Highlights
– Efficient 32-bit central processing unit (CPU) (ADP32Fx core)
– Main frequency 60MHz (period 16.67ns)
– 3.3V single power supply
– Integrated power-on and brown-out reset sources
– On-chip Flash, SRAM, OTP memory
– Code Security Module
– Serial port peripherals (SCI/SPI/I2C/LIN/eCAN)
– Enhanced Control Peripherals
- Enhanced Pulse Width Modulator (ePWM)
- High-Resolution PWM (HRPWM)
- Enhanced Capture (eCAP)
- High-Resolution Input Capture (HRCAP)
- Enhanced Quadrature Encoder Pulse (eQEP)
- Analog-to-digital converters (ADCs)
- On-chip temperature sensor
- Comparators
• Efficient 32-bit central processing unit (CPU) (ADP32Fx)
– 60MHz (16.67ns cycle time)
– 16x16 and 32x32 multiply-accumulate (MAC) operations
– 16x16 Dual MACs
– Harvard bus architecture
– Linked operation
– Fast interrupt response and handling
– Unified memory programming model
– Efficient code (using C/C++ and assembly language)
• Programmable Control Law Accelerator (CLA)
– 32-bit floating point arithmetic accelerator
– Execution of code independent of the main CPU
• Strong electrostatic discharge (ESD) protection
– –ESD Human Body Model (HBM): +2000V/-2000V
• low cost
– No power sequencing is required
– Integrated power-on reset and brown-out reset
– Low power consumption
– No analog support pins
• Clock and system control
– Two internal zero-pin oscillators
– On-chip oscillator/external clock input
– Supports dynamic phase-locked loop (PLL) ratio changes
– Missing clock detection circuit
• Up to 45 individually programmable multiplexed GPIOs with input filtering
• Peripheral Interrupt Extension (PIE) module that supports all peripheral interrupts
• Three 32-bit CPU timers
• Independent 16-bit timer in each ePWM module
• On-chip memory
– Flash, SRAM, OTP, Boot ROM available
• 128-bit security key/lock
– Protect secure memory blocks
– Prevent hardware reverse engineering
• Serial port peripherals
– One SCI(UART) module
– Two SPI modules
– An Inter-Integrated Circuit (I2C) bus
– A Local Interconnect Network (LIN) bus
– An Enhanced Controller Area Network (eCAN) bus
• Advanced emulation features
– Analysis and breakpoint functions
• Package Options:
– 56-pin very small quad flat no-lead (VQFN) package
– 64-pin low profile quad flat (LQFP) package
– 80-pin low profile quad flat (LQFP) package
– 48-pin low profile quad flat (LQFP) package
Application field
• Air conditioner outdoor unit
• Microinverters
• Door drive control
• Solar Optimizer
• DC/DC converters
• String inverter
• Inverter and motor control
• AC drive control module
• On-board (OBC) and wireless chargers
• Linear Motor Segment Controller
• Automatic sorting equipment
• Servo drive power stage modules
• Textile machinery
• AC input brushless DC motor drive
• Electric welding machine
• DC input brushless DC motor drive
• AC charging station (AC charging pile)
• Industrial AC and DC
• DC charging station (DC charging pile)
• Three-phase uninterruptible power supply
• Electric Vehicle Charging Station Power Modules
• Merchant network and server PSUs
• Wireless on-board charging module
• Commercial telecom rectifiers
• Energy storage power conversion system (PCS)
overall block diagram
The AP8000 universal programmers independently developed by Core Recording Micro Semiconductor includes three parts: the host, the base plate, and the adapter seat.
The host supports USB and NET connections, allowing multiple programmers to be networked to achieve the purpose of simultaneously controlling multiple programmers to burn at the same time. The built-in chip safety protection circuit ensures that even if the chip is reversed or a short circuit is caused by other reasons can be detected immediately and the power will be cut off to ensure the safety of the chip and programmer. Embedded high-speed FPGA greatly accelerates data transmission and processing. There is an SD card slot on the back of the main unit. Put the project file produced by the PC software into the root directory of the SD card and insert it into the card slot. The project file can be selected, loaded, and programmed through the buttons on the programmer. command, in order to achieve the purpose of operating without a PC, which greatly reduces the cost of PC hardware configuration, and can be conveniently and quickly matched with the working environment.
AP8000 makes the mainframe more expandable by adding an adapter board to the backplane. Currently, it supports devices produced by all mainstream semiconductor manufacturers. Supported device types include NAND, NOR, MCU, CPLD, FPGA, EMMC, etc., and support file formats including Intel Hex, Motorola S, Binary, POF, etc.
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