- RS Stock No.:
- 171-1688
- Mfr. Part No.:
- P8X32A-Q44
- Manufacturer:
- Parallax Inc
The image is for reference only, please refer to product details and specifications
800 In stock for delivery within 3 working days
Added
Price Each (In a Tray of 160)
HK$98.766
Units | Per unit | Per Tray* |
160 - 160 | HK$98.766 | HK$15,802.56 |
320 - 480 | HK$96.791 | HK$15,486.56 |
640 + | HK$94.855 | HK$15,176.80 |
*price indicative |
- RS Stock No.:
- 171-1688
- Mfr. Part No.:
- P8X32A-Q44
- Manufacturer:
- Parallax Inc
Product overview and Technical data sheets
Legislation and Compliance
- COO (Country of Origin):
- CN
Product Details
Propeller 1 Microcontrollers
The Parallax P8X32A (Propeller) is an 8-core 32-bit microprocessor designed to provide high-speed processing for embedded systems.It is available in two package formats: 40-pin DIP and 44-pin QFP SMT. Ideal for real-time control applications because the task switching between cores is fully deterministic.
Clock frequency: up to 80MHz
Performance: up to 160MIPS
No of cores (COGs): 8
Global ROM: 32KB
Global RAM: 32KB
COG RAM: 2KB each
32 x GPIO pins
2 x multi-function counters/COG
1 x Video generator/COG
Power supply: +2.7 to +3.6Vdc
Operating temperature range: -55 to +125°C
RS Product Codes
405-597 P8X32A-D40 Propeller, DIP40
405-626 P8X32A-Q44 Propeller, QFP44
Performance: up to 160MIPS
No of cores (COGs): 8
Global ROM: 32KB
Global RAM: 32KB
COG RAM: 2KB each
32 x GPIO pins
2 x multi-function counters/COG
1 x Video generator/COG
Power supply: +2.7 to +3.6Vdc
Operating temperature range: -55 to +125°C
RS Product Codes
405-597 P8X32A-D40 Propeller, DIP40
405-626 P8X32A-Q44 Propeller, QFP44
For products that are Customized and under Non-cancellable & Non-returnable, Sales & Conditions apply.
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).