The Serial SuperFlash® Kit 2 allows evaluation of Microchip's Serial Flash Devices which are made using the SST SuperFlash® technology. The Serial SuperFlash Kit 2 contains three Serial Flash Daughter Boards. The Serial Flash Daughter Board is an evaluation board designed to interface with the mikroBUS™ connector on the Explorer 16/32 Development Board (DM240001-2). It can also interface with the PICtail™ Plus connector located on the Explorer 16 Development Board (DM240001).
The Automotive Networking Development Board is a low-cost modular development system for Microchip’s 8-bit, 16-bit, and 32-bit microcontrollers targeting CAN and LIN network related applications. The board supports devices using the 100 pin Plug-In Module (PIM) connector for easy device swapping. The board has four Mikrobus™ sockets which allow the user the ability to develop with a variety of MikroElectronika Click™ add-on boards. The board also includes a PICtail Plus edge connector for backwards compatibility to PICtail Plus boards used with the Explorer 16 Development board.
Power supply and PIMs (Plug-in Modules) are not included. See recommended add-ons below
- 12V power Supply (PS0019) or 9V power supply (AC002014)
- MCP2003B click LIN Transceiver
- MCP25625 click CAN Controller with integrated Transceiver
- Microchip PIM (Plug-in Module) boards.
Read the Automotive Networking Development Board User’s Manual (download section of this page)
The CAN BUS Analyzer Tool is a simple to use low cost CAN bus monitor which can be used to develop and debug a high speed CAN network. The tool supports CAN 2.0b and ISO11898-2 and a broad range of functions which allow it to be used across various market segments including automotive, industrial, medical and marine. The toolkit comes with all the hardware and software required to connect a CAN network to a PC. The Graphical User Interface makes it easy to quickly observe and interpret bus traffic.
The CAN/LIN PICtail™ (Plus) Daughter Board (AC164130-2) can be used with either the Explorer 16 Board or the PIC18 Explorer Board. This daughter board is used to facilitate rapid implementation and evaluation of applications that use Controller Area Network (CAN) and Local Interconnect Network (LIN) interfaces. The PICtail Plus interface is used for connection to Explorer 16 Development Board for 16-bit and 32-bit MCUs. The PICtail interface is used for connection to the PIC18 Explorer for PIC18 8-bit microcontrollers.
An older version of this board that only supports connection to the Explorer 16 Development Board is still available. The ECAN/LIN PICtail™ Plus Daughter Board (AC164130) can only be used with the Explorer 16 Development Board for PIC24 16-bit microcontrollers and dsPIC33F Digital Signal Controllers.
The CryptoAutomotive™ In-vehicle Network (IVN) Trust Anchor/Border Security Device (TA/BSD) development kit enables Original Equipment Manufacturers (OEMs) and Tier 1 customers to add comprehensive security to networked vehicle systems with minimal impact on current designs while providing the highest level of protection against threats. The only security-specific automotive tool in the industry, the CryptoAutomotive TA/BSD development kit together with a host MCU emulates a node in an automotive network and provides system designers with an intuitive starting point for implementing security. Designed to be flexible, the tool can support the nuances between each OEM’s implementation, allowing manufacturers to configure the node to conform to various specifications as well as industry standards. The tool emulates TA/BSD security companion devices and demonstrates secure key generation, secure boot, Electronic Control Unit (ECU) authentication , hardware-based crypto accelerators and more. Designers can also implement Controller Area Network Flexible Data rate (CAN-FD) message authentication with configurable MAC type and size along with freshness counter to prevent replay attacks as well as conversion of CAN 2.0 messages to CAN-FD with appended Message Authentication Codes (MAC) and subsequent MAC verification. Connecting multiple development kits together or connecting a development kit to a security capable tool, creates a network to verify groups of messages and associated CAN MACs across multiple nodes.
The kit is only released under NDA. (Please contact sales to complete an NDA)
This KIT is no longer being support and is not recommended for TA100 Evaluation. Please use the TA100 AC164166 and AC164167 Socket Kits
Kit and accessory Information:
One CryptoAutomotive™ TA/BSD Development board preloaded with firmware and jumper settings.
Connector pack for connecting with ATSAMV71-XULT
Micro USB Cable.
QuickStart Information Card.
Recommended Accessories (Not part of Kit)
12V 1.25A Power Supply with 2.1mm Center pin Jack. (Needs to be ordered seperately).- USA Power Supply - Power Adapter Plug Set
ATSAMV71-XULT Development board to act as a host system.
CAN analyzer Hardware and Software tools- K2L MOCCA-FD and K2L Optolyzer (Optional)- Optolyzer Studio Professional
A second DM320112 CrytpoAutomotive™ development kit to support multiple node CAN-MAC if you do not have a security capable CAN tool
The dsPIC33EV 5V CAN-LIN starter Kit features the dsPIC33EV256GM106 Digital Signal Controller (DSC) for automotive and motor control applications. The Starter Kit contains serial data ports for CAN, LIN and SENT, a self-contained USB programming/debug interface, and an expansion footprint for flexibility in application hardware development. This board allows users to explore three popular automotive and industrial serial data formats (CAN, LIN and SENT). The PICkit On-Board (PKOB) USB programmer and debugger allows simple programming without the need for an additional hardware interface. No other external tools are required to program the device.
Microchip’s EV08Z13A evaluation board features Microchip’s Timberwolf audio processor, capable of running the full family of Timberwolf technology firmware. The EV08Z13A is designed to help developers quickly prototype and demonstrate high-quality audio processing algorithms such as full-duplex stereo echo cancellation, beamforming, noise reduction, dynamic range control, audio event detection etc.,
The EV08Z13A evaluation board can be used to easily demonstrate algorithms for 2-way voice communication, embedded speech recognition, and audio event detection applications by using the Timberwolf Demo Tool software. Once ready for application-specific customization, the EV08Z13A can be configured and tuned with the Microchip MiTuner GUI software.
The LIN Serial Analyzer development tool enables the user to monitor and communicate to a LIN (Local Interface Network) bus using a Personal Computer (PC). This is a powerful tool which can be used to send messages, monitor the bus traffic, perform errors checks and filter messages amongst many other features, allowing the user to develop and debug the system implementation.
Supporting CANV 2.0B active with bus rates up to 1Mb/s, this kit includes everything needed to demonstrate, design, develop and configure a CAN node using the MCP250xx CAN I/O Expander family of products.
To Speed up software development, and to enable introduction of CAN to those who are unfamiliar with the protocol, Microchip offers unique development tool that is a combination of a software development tool and a CAN message/communication tool called the MCP2510/2515 CAN Developer’s Kit
The MCP2515 CAN Bus Monitor Demo Board kit contains two identical boards which can be connected together to create a simple two node Controller Area Network (CAN) bus, which can be controlled and/or monitored via the included PC interface. The board(s) can also be connected to an existing CAN bus.
Using the PC interface, users can configure the MCP2515 registers, send CAN messages, and receive CAN messages. CAN traffic can be generated using a button on the board not connected to the PC.
There are also several headers (test points) so the MCP2515 pins can be monitored.
The MCP2515 PICtail™ Demo Board implements a simple CAN bus using two nodes. One node uses the MCP2515 Stand Alone CAN controller and the other node uses the MCP25020 CAN I/O Expander. Each node utilizes one input (push button) and one output (LED).
The boards demonstrate a simple, inexpensive implementation of a CAN bus. The MCP2515 node transmits its input (push button) information at regular intervals and request input (push button) information from the MCP25020 at regular intervals. An LED on each node reflects the state of the other node's push button.
The MCP2515 PICtail Plus Daughter Board is a simple Controller Area Network (CAN) board designed to be used with boards containing the PICtail Plus connector. The board also has the PICkit™ Serial connector for interfacing to the PICkit Serial Analyzer tool. The CAN node consists of the MCP2515 Stand-Alone CAN controller and MCP2551 CAN transceiver. The PICkit Plus and PICkit Serial connectors allow the board to be interfaced to a variety of PICmicros so that the user can develop a CAN node. The board also contains headers or test points for most of the MCP2515 pins to allow the external functions to be monitored/evaluated.
The MCP25625 PICtail™ Plus Daughter Board is a simple Controller Area Network (CAN) board designed to be used with boards containing the PICtail Plus connector. The board also has the PICkit™ Serial connector for interfacing to the PICkit Serial Analyzer tool. The single-chip solution CAN node consists of the MCP25625 CAN Controller with Integrated Transceiver. The PICkit Plus and PICkit Serial connectors allow the board to be interfaced to a variety of PIC® microcontrollers so that the user can develop a CAN node. The board also contains headers and test points for most of the MCP25625 pins that allow the external functions to be monitored/evaluated. Additionally, there are multiple external components and jumper configurations for added flexibility.
The MCP8025 TQFP BLDC Motor Driver Evaluation Board demonstrates Microchip’s 3-Phase Brushless DC (BLDC) Motor Gate Driver with Power Module, MCP8025, used in a BLDC motor drive application. When used in conjunction with a microcontroller, the MCP8025 will provide the necessary drive signals to drive for a 3-Phase BLDC motor. The MCP8025 contains the high-side and low-side drivers for external N-channel MOSFETs. A dsPIC33EP256MC504 processor is used to supply the PWM inputs to the MCP8025 as well as handle the high-speed Analog-To-Digital Conversion (ADC) required for 50 kHz PWM operation. The MCP8025 UART interface is used to configure the MCP8025 device and to send fault information to the dsPIC ® DSC controller. The evaluation board firmware uses a 6-step trapezoidal drive control algorithm to demonstrate the MCP8025 capabilities.
PIC18F26K83 Plug-In Module (PIM)
Processor Plug-In Modules are small circuit boards to be used with the various Microchip Development Boards to evaluate various MCU families. These plug into the main processor socket of the Development Boards so that different microcontrollers can be used for prototyping, demonstration or development --quickly and easily.
This processor PIM includes a 28-pin PIC18F26K83 MCU sample. The PIM plugs into Automotive Networking Development Board (ADM00716).
This PIM can be used to evaluate the following MCUs:
The PIC32MX1/2/5 Starter Kit provides the user with an easy and cost effective option to experience the USB and CAN functionality of the new PIC32MX1/2/5 family of microcontrollers. The board features a 50MHz/83DMIPS PIC32MX570F512L MCU with 512 KB Flash, 64KB RAM, USB Device/Host/OTG, CAN 2.0B, 48 Channel ADC, Analog Comparators, SPI Ports and UARTs. The starter kit has an onboard high-speed CAN transceiver which serves as an interface between a CAN protocol controller and the physical two wire bus. It also comes equipped with an onboard DB9 connector to interface with the CAN2.0B based applications.
CAN-LIN 1 part number: DM163007 (This part is no longer available)
CAN-LIN 3 part number: DM163015 (This part is no longer available)
Microchip offers two similar PICDEM CAN-LIN demonstration boards to support different PICmicro® devices. All demonstrate the main features of the devices, especially those features of the integrated CAN module. In addition to the CAN network, the board also employs a LIN sub-network using Microchip's PIC16C43X and PIC18F320 device families.
Each PICDEM CAN-LIN demonstration board includes both firmware and PC software for simulating a CAN network. The firmware comes pre-programmed on the sample device. The PC software and documentation are furnished on a CD-ROM.
The RN4677 PICtail/PICtail Plus is a Bluetooth Dual Mode development board using the Microchip RN4677 Bluetooth Dual Mode module. The RN4677 module is a Dual mode Bluetooth module that complies with Bluetooth Core Specification 4.0. TheRN4677 uses a simple ASCII command interface over the UART. The board enables evaluation of the RN4677 and development of Bluetooth low Energy applications in two different ways:
1) Out of the box: When plugged into the USB port of a PC, the board will enumerate as a Communication Device Class (CDC) Serial device. Through a terminal program, users can configure and control the module and transfer data using the easy to use provided command set.
2) As a PICtail/PICtail Plus, the board interfaces to one of hundreds of available PIC Microcontrollers through this standard Microchip interface. The PICtail bridges the host MCU UART to the RN4677's UART interface for data transfer or configuration using the straight-forward, easy-to-use ASCII style command set.
The SAMHA1E16A Xplained Pro evaluation kit is ideal for evaluating and
prototyping with the ATSAMHA1E16A-B ARM® Cortex®-M0+ based microcontrollers.
Extension boards to the SAMHA1E16A Xplained Pro can be purchased
The ATSAMHA1E16A -XPRO evaluation kit does not include extension boards.
SAM HA1E16A Xplained Pro supports the I/O1 Xplained Pro, OLED1 Xplained
Pro, QT2 and QT4 Xplained Pro and PROTO1 Xplained Pro extension boards.
The SAMHA1G16A Xplained Pro evaluation kit is ideal for evaluating and
prototyping with the ATSAMHA1G16A ARM® Cortex®-M0+ based microcontrollers.
Extension boards to the SAMHA1G16A Xplained Pro can be purchased
The ATSAMHA1G16A -XPRO evaluation kit does not include extension boards.
SAM HA1G16A Xplained Pro supports the I/O1 Xplained Pro, OLED1 Xplained
Pro, QT2 and QT4 Xplained Pro and PROTO1 Xplained Pro extension boards.
The ATSAMR30M Sensor Board is a hardware platform to explore and evaluate the capabilities of the ATSAMR30M18A, a Sub-1 GHz IEEE® 802.15.4™ compliant RF module with an integrated ARM Cortex M0+ MCU with 256KB Flash for application and protocol development. The sensor board supports multiple ready-to-use applications available on Github and in Atmel Studio's Integrated Development Platform (IDP).
Equipped with mikroBUS™ compatible headers, the sensor board is designed to deliver 802.15.4 (700/800/900 MHz) ISM band wireless functionality to numerous click board-based sensors and interfaces.
The Komodo™ CAN Duo Interface (Total Phase TP360110) is a two-channel USB-to-CAN adapter and analyzer. The Komodo interface is an all-in-one tool capable of active CAN data transmission and non-intrusive CAN bus monitoring. The portable and durable Komodo interface easily integrates into end-user systems. It provides a flexible and scalable solution for a variety of applications. The Komodo CAN Duo Interface features two independently customizable CAN channels, a royalty-free API, and cross-platform support for Windows, Linux, and Mac OS X.
Configure each CAN channel independently as either an adapter or a non-intrusive analyzer. Communicate and/or monitor two different CAN buses with a single Komodo interface.
Full Featured CAN Adapter
The Komodo CAN Duo Interface can operate as a CAN node, to send and receive messages, on up to two different CAN networks. Communicate with any type of CAN network, from automotive systems to industrial controls. The Komodo interface operates at up to a maximum bitrate of 1 Mbps.
True Real-Time Monitoring Non-intrusively monitor up to 2 different CAN buses and see the data as it is captured. Each channel of the Komodo interface is independently, galvanically isolated and can capture CAN data at up to 1 Mbps.
GPIO General Purpose I/O
The 8 GPIO pins can be configured for input or output, allowing the Komodo interface to communicate with external logic.
The Komodo CAN Duo Interface is rated for operating temperatures from -40°C to +85°C (non-condensing).
The Komodo CAN Duo Interface comes complete with a royalty-free API. There are no yearly support contracts and no fees for software updates.
The low cost makes it affordable for a company to provide every developer with their own interface.
The Komodo interface is completely field-upgradable via USB. You will never have to worry about being out of step with the latest software features. Software and firmware upgrades are always freely available in the Downloads section of the Total Phase website.