Internet of Things Applications
IoT is a broad term. In principle, it describes the independent communication between two devices. To enable and improve this, conventional technologies are typically used to improve speed or radio technology. We offer numerous solutions for the development, testing and debugging of IoT designs.
AWS IoT Greengrass on TySOM Board
One of the most comprehensive cloud-based IoT services available is IoT Greengrass from Amazon Web Services (AWS). TySOM is a family of embedded application development boards that adds numerous cloud capabilities when used with the AWS IOT Greengrass Core. more...
RFFE
RFFE is a radio interface that is a core component of any wireless technology. The latest version, MIPI RFFE v3.0, is designed to deliver the more accurate timing precision and reduced latency required to drive the global adoption of 5G. Learn more about RFFE and IoT designs below. more...
Microcontroller & FPGAs
Microcontrollers are a central component of every IoT system. There are numerous MCUs in devices for IOT that perform simple control tasks as well as complex computing tasks. Learn more about programming, measuring and testing microcontrollers in IoT. more...
System Power Management Interface
SPMI is a power management interface used between application processors and peripheral components in mobile and IoT devices. The advantages of the interface are low pin count, high speed, low latency, and the ability to support multiple processor devices on the same bus. Learn more about testing SPMI designs below. more...
IoT storage technologies
Traditional flash memory continues to be used in IoT applications around GPS / navigation as well as consumer products such as smartwatches due to its low cost, high storage density, operation in wide temperature ranges and architecture. The memory technologies offer high flexibility and above all reliability. more...
Automotive Ethernet
Automotive Ethernet is a powerful part of an automobile's communications architecture that enables connectivity between vehicle electronics and the Internet, where the vehicle is part of a typical Internet of Things (IoT) application. more...
AWS IoT Greengrass on TySOM Board
One of the most comprehensive cloud-based IoT services available is IoT Greengrass from Amazon Web Services (AWS). TySOM is a family of embedded application development boards that adds numerous cloud capabilities when used with the AWS IOT Greengrass Core. more...
RFFE
RFFE is a radio interface that is a core component of any wireless technology. The latest version, MIPI RFFE v3.0, is designed to deliver the more accurate timing precision and reduced latency required to drive the global adoption of 5G. Learn more about RFFE and IoT designs below. more...
Microcontroller & FPGAs
Microcontrollers are a central component of every IoT system. There are numerous MCUs in devices for IOT that perform simple control tasks as well as complex computing tasks. Learn more about programming, measuring and testing microcontrollers in IoT. more...
System Power Management Interface
SPMI is a power management interface used between application processors and peripheral components in mobile and IoT devices. The advantages of the interface are low pin count, high speed, low latency, and the ability to support multiple processor devices on the same bus. Learn more about testing SPMI designs below. more...
IoT storage technologies
Traditional flash memory continues to be used in IoT applications around GPS / navigation as well as consumer products such as smartwatches due to its low cost, high storage density, operation in wide temperature ranges and architecture. The memory technologies offer high flexibility and above all reliability. more...
Automotive Ethernet
Automotive Ethernet is a powerful part of an automobile's communications architecture that enables connectivity between vehicle electronics and the Internet, where the vehicle is part of a typical Internet of Things (IoT) application. more...
Articles about the IoT
AWS IoT Greengrass on TYSOM Boards
One of the most comprehensive cloud-based IoT services available is IoT Greengrass from Amazon Web Services (AWS).
Local storage technologies for IoT devices
Conventional flash memories are still used in IoT applications around GPS / navigation such as in smartwatches due to their low cost and high storage density.
Features of IoT microcontroller
Many of the microcontrollers that are used here were not even manufactured for use in IoT applications, but were either upgraded or converted.
5G in the Internet of Things (IoT)
The Internet of Things allows many applications of technologies from other areas of technology, such as the mobile sector.
Energy-saving IoT designs
With the advent of the Internet of Things (IoT), embedded designers focus their attention and efforts more than ever on the energy consumption of the system.
Automotive Ethernet for IoT peripheral devices
Automotive Ethernet can connect the vehicle's internal digital subsystems, including any IoT devices used for monitoring and component control.
Products for the IoT
Interfaces
- 2 × Gigabit Ethernet PHY DP83867CR
- Wi-Fi / Bluetooth Module (WL1837MOD)
- PCIe x1 GEN3 / 4 (Root Complex or Endpoint)
- 4x USB 3.0 ports
- SATA
- CAN
- QSFP+
- 2x8 IOs Pmod connector
- USB 2.0 OTG (Micro USB connector)
- UART to USB Bridge (CP2103) with Mini USB B connector
- JTAG USB module for Zynq PL
Memory
- 8GB DDR4 SODIMM memory for processing system and 8GB for PL
- 2GB NAND memory
- Micro SD support
- 512MB QSPI flash memory
- 64Kb EEPROM
Multimedia
- HDMI 2.0 Out
- HDMI 2.0 IN
- DisplayPort
Miscellaneous
- 4x user dip switches
- 5x user LEDs
- Pushbuttons for PL & Reset PS
- Accelerometer
- Temperature Sensor
- SYSMON
- Current Monitor
Chipset / SoC
- Xilinx Zynq UltraScale + ZU19EG-FFVB1517 MPSoC
- Quad-core ARM Cortex-A53 as application processing unit with up to 1.5 GHz
- Dual-core ARM Cortex-R5 as real-time processing unit
- Mali-400 MP2 graphics processing unit
- 2x XADC - 12-bit analog-to-digital converter with 1 MSPS
- FPGA: ZU19EG
- 1,143K logic cells, 1,045K flip-flops, 70.6 MB RAM, 1968 DSP
Price on request
Features RFFE Protocol Analyzer and Exerciser
- Supports RFFE2.0/2.1 Specification
- Ability to configure it as Master or Slave
- Generate different RFFE at full speed and half of full frequency speed
- Error Injection such as parity errors and ACK/NACK errors
- Variable RFFE data speeds
- Simultaneously generate RFFE traffic and Protocol decode of the Bus
- The timing diagram of the Protocol decoded bus
- Listing view of Protocol activity
- Error Analysis in Protocol Decode
- Ability to write exerciser script to combine multiple data frame generation at different data speeds
- USB2/3 host computer interface
- Flexibility to upgrade to the unit for evolving RFFE Specification
Price on request
Features PGY-SPMI-EX-PD SPMI Protocol Analyzer and Exerciser
- Supports SPMI v 1.0/ 2.0 specifications
- Ability to configure it as Master or Slave
- Supports Sole Master feature
- Supports Request Capable Slave (RCS) feature
- Supports the complex BUS arbitration process
- Generate different SPMI Packets
- Error injection such as parity error, ACK/NACK error, and Skip SSC error
- Variable SPMI data speeds (32kHz – 26Mhz1), Voltage drive levels (1.2 or 1.8), and Duty Cycle (25%,50%, and 75%).
- Simultaneously generate SPMI traffic and Protocol decode of the Bus
- Continuous streaming of protocol data to HDD/SSD
- The timing diagram of the Protocol decoded bus
- Listing view of Protocol activity
- Error Analysis in Protocol decoded data
- Ability to write exerciser script to combine multiple
- data frame generation at different data speeds
- USB2/3 host computer interface
- API support for automation in Python and C++
- Flexibility to upgrade to the unit for evolving SPMI Specification
- Optional Protocol Implementation Compliance Statement (PICS) supports scripts
Price on request
Features
- Free PECloud access to Deploy, monitor, and manage cloud-connected production Programming Jobs
- Can be operated via PC or stand alone
- Program MCUs with a PC or without a PC
- Powerful automation control
- PC-based SDK, console and GUI control, gang programming, dynamic data programming
- Multiple communication interfaces including USB 2.0, Ethernet and serial ports
- LCD display and intuitive touchscreen controls
- Easy-to-use touchscreen interface with remote access
- Target Power Management
- Ability to power the target MCU
- Automatic counting & common serial numbers
- Programming can include complex serialization
- Ethernet-based debugging
- Compatible with many development IDEs
- On-board memory
- Programming control port
- 10-pin connector for starting programming and retrieving status and programming validation
- High-speed programming
Only Cyclone FX Models:
- Download rates up to 75 Mbits/s
- 1+ gigabytes of encrypted internal memory for 200+ programming images
- RSA/AES encryption (unique ImageKeys to protect valuable IP)
- Programming count/date limits, etc.
- External memory via SDHC card port
- Perform complex testing of MCU before programming
- Measurement of current and voltage of the target IC
Hardware Features
- Built-in high speed processor for high programming speed.
- Supports UFS/UMCP and eMMC/eMCP programming.
- UFS part (v2.0/v2.1/v3.0/v3.1)
- Supports setting of descriptors, attributes and flags
- LUN configuration and preset support
- eMMC part
- Supports User Area, Boot1/2 partition and Extend CSD
- Supports RPMB, GPP1~4, and Enhanced mode
- Supports USB 2.0 and USB 3.0 (with power adapter)
- Supports various storage ICs
- UFS, eMMC, MCU, SPI NOR, SPI NAND, Parallel NOR, Parallel NAND, EEPROM, CPLD, FPGA
- Supports all IC packages
- CSP, BGA, QFN, QFP, SOP, TSOP, SSOP, PLCC, DIP, etc.
- Supports various file formats:
- Binary (bin/rom), Intel Hex (h16/h20/hex), Motorola S19(mhx/mot/s19/srec) and specific to MCU IC.
- Regular software update
- Programming project and socket are compatible with NuProgPlus.
- Socket adapters for NuProg-E2 and NuProg-E are not compatible.
- Windows 7/8/8.1/10 support