Parallax Inc Propeller Mini MCU Development Board 32150
- RS Stock No.:
- 843-0862
- Mfr. Part No.:
- 32150
- Brand:
- Parallax Inc
Unavailable
RS will no longer stock this product.
- RS Stock No.:
- 843-0862
- Mfr. Part No.:
- 32150
- Brand:
- Parallax Inc
Specifications
Technical Reference
Legislation and Compliance
Product Details
Find similar products by selecting one or more attributes.
Select all | Attribute | Value |
|---|---|---|
| Brand | Parallax Inc | |
| Classification | Development Board | |
| Kit Name | Propeller Mini | |
| Technology | MCU | |
| Processor Part Number | P8X32A-M44 | |
| Processor Type | Microcontroller | |
| Select all | ||
|---|---|---|
Brand Parallax Inc | ||
Classification Development Board | ||
Kit Name Propeller Mini | ||
Technology MCU | ||
Processor Part Number P8X32A-M44 | ||
Processor Type Microcontroller | ||
- COO (Country of Origin):
- US
Propeller Mini processor DIP module
The Propeller Mini is a minimal Propeller 1 microcontroller board for embedding in hard to reach places where a full-sized development board is not practical. You can solder leads directly to the through holes on the board, or solder in a male or female header for easy connection to a breadboard or prototyping board.
Propeller P8X32A 8-core microcontroller
64KB EEPROM for program storage
Removable 5MHz crystal
Access to 19 x GPIO pins
Power supply VIN: +6.5V to +12Vdc @ 1A
+5V regulated output: 600mA
+3.3V regulated output: 400mA
Communication: serial UART
Operating temperature range: -40 to +85°C
Dimensions: 20.5 x 38.6mm
64KB EEPROM for program storage
Removable 5MHz crystal
Access to 19 x GPIO pins
Power supply VIN: +6.5V to +12Vdc @ 1A
+5V regulated output: 600mA
+3.3V regulated output: 400mA
Communication: serial UART
Operating temperature range: -40 to +85°C
Dimensions: 20.5 x 38.6mm
Supplied with
40-pin male header strip
The Propeller™ 1 microprocessor chip makes it easy to rapidly develop embedded applications. Its eight 32-bit processors (COGs) can operate simultaneously, either independently or cooperatively, sharing common resources through a central hub. The developer has full control over how and when each cog is employed; there is no compiler-driven or operating system-driven splitting of tasks among multiple cogs. A shared system clock keeps each cog on the same time reference, allowing for true deterministic timing and synchronization. Two programming languages are available: the easy-to-learn high-level Spin, and Propeller Assembly which can execute at up to 160 MIPS (20 MIPS per COG).