Pan186cv Datasheet <90% Complete>
| Parameter | Specification | | :--- | :--- | | | | | MCU Type | 8-bit high-performance RISC CPU | | Program Memory (MTP ROM) | 3kW (can be rewritten over 1,000 times) | | Data Memory (RAM) | 256 Bytes | | Wireless RF | | | Frequency Band | 2.400 ~ 2.483 GHz ISM band | | Modulation | GFSK (Gaussian Frequency-Shift Keying) | | Data Rates | 250kbps, 1Mbps, 2Mbps | | Max TX Power | Up to +11dBm (configurable to 9, 5, -1, -10, or -23dBm) | | RX Sensitivity | -91dBm @ 250kbps / -87dBm @ 1Mbps / -83dBm @ 2Mbps | | Peripherals & I/O | | | GPIOs | 10 | | ADC | 8 channels, 8-bit resolution | | Timers | Two 8-bit timers with PWM, one 16-bit hardware timer | | Other | Hardware comparator, Bandgap reference, LVR (Low Voltage Reset), Watchdog Timer | | Electrical & Physical | | | Operating Voltage | 2.2V to 3.3V | | Operating Temperature | -40°C to +85°C | | Package | SOP-16 (Small Outline Package, 16 pins) | | | |
Panchip’s own product page for the PAN186 series contains basic handling notes and a short description, but does not include a downloadable datasheet. You may need to contact Panchip directly through their website.
The PING))) is an ultrasonic sensor widely used in robotics and automation projects to measure distance to objects. It operates by emitting an ultrasonic pulse and measuring the time it takes for the echo to return. pan186cv datasheet
Built on an 8-bit architecture featuring register configurations and instruction sets similar to Microchip PIC devices.
The PAN186CV's high integration and low cost make it perfect for several mass-market applications: | Parameter | Specification | | :--- |
Panasonic does not always publicly release datasheets for OEM cells. To get the :
The official PAN186 product manual (available from the Panchip wiki) includes the pinout diagram, reference schematic, package dimensions, and electrical characteristics—essential information for PCB design and hardware integration. However, programming details are less accessible. The chip's MTP ROM is believed to be programmed by the device manufacturer with a custom firmware that implements the specific communication protocol for each product (e.g., the binding, packet format, and hopping sequence for a given drone model). Consequently, designers wishing to use the PAN186 in a new design may need to negotiate directly with Panchip or an authorized distributor for development tools, firmware SDKs, and programming documentation. It operates by emitting an ultrasonic pulse and
The PAN186CV has been successfully reverse‑engineered by the open‑source community. The DeviationTX forum contains a thread where a user captured the chip’s RF protocol using a HackRF One and GNU Radio Companion. The post reveals:
