Pan186cv Datasheet: New [upd]
: High signal stability and low power consumption for portable battery-operated devices. Panasonic Industry Europe GmbH Operating Modes
The PAN186CV has garnered interest in the DIY and reverse-engineering communities, particularly for decoding drone protocols. The following technical details have been observed:
The new datasheet represents a significant silicon revision. The PAN186CV is no longer a drop-in replacement – it requires passive component changes but offers superior performance.
The PAN186CV is a highly integrated, low-power System-on-Chip (SoC) that combines an 8-bit microcontroller core with a 2.4GHz RF transceiver—all housed in a compact SOP16 package. This chip has gained significant traction in the consumer electronics market, particularly in the remote control and toy industries, as it offers a cost-effective solution for wireless communication applications. pan186cv datasheet new
Commonly paired with markings such as , the PAN186CV has become a foundational component in consumer hobbyist electronics, toy drones, and wireless remote controls. This comprehensive technical analysis covers the updated parameters, block configurations, and implementation requirements found in the new datasheet documentation. 1. Technical Specifications Overview
The PAN186CV is housed in space-saving surface-mount packages designed for compact remote control enclosures. The primary pin layouts provide access to:
The "CV" suffix typically denotes a standard or commercial grade variant in a (DPAK) surface-mount package. The "new" designation indicates a die revision that improves efficiency at light loads and enhances ESD protection. : High signal stability and low power consumption
: Built as an 8-bit microcontroller with an integrated RF transmitter (often marked as RF250A).
| | Minimum | Typical | Maximum | Unit | |---|---|---|---|---| | Supply Voltage (VDD) | 2.2 | 3.0 | 3.3 | V | | Operating Temperature | -40 | 25 | 85 | °C | | RF Frequency Range | 2400 | — | 2483.5 | MHz | | TX Current Consumption (@9dBm) | — | 30 | — | mA | | RX Sensitivity (@250Kbps) | — | -91 | — | dBm | | MTP Program/Erase Cycles | 1,000 | — | — | cycles |
It wasn't a datasheet.
[ V_OUT = 1.23V \times \left(1 + \fracR1R2\right) ]
Engineered to support "exceptional audio experiences" in embedded systems. Typical Applications