, a high-performance 2.4GHz Wireless Transceiver SOC (System on Chip). Product Overview
is a highly integrated SOC designed for low-power wireless communication and high-quality audio processing. It is often used as a versatile solution for digital wireless audio transmission, including smart devices and wireless music players. AliExpress Key Features Wireless Connectivity : Operates in the 2.4GHz ISM band Audio Processing
: Features robust internal audio processing capabilities suitable for high-fidelity music playback. Pin Compatibility : Compatible with the pinout, allowing for easy hardware replacement or upgrades. Energy Efficiency
: Optimized for low power consumption, making it ideal for battery-operated portable devices. Common Applications Wireless headphones and speakers. Smart home audio systems. Low-latency wireless game controllers. Wireless microphones and monitoring systems. AliExpress Suggested Datasheet Structure General Description : High-level summary of the SOC's purpose.
: List of electrical and functional capabilities (2.4GHz transceiver, audio SOC). Pin Configuration : Diagram and table matching the MST7500M footprint. Electrical Characteristics
: Operating voltage, current consumption, and RF sensitivity. Functional Description : Details on the RF engine and audio processing block. Package Information : Physical dimensions and mounting specs. RF specifications Panchip Microelectronics Co., Ltd.
2.4GHz Wireless Transceiver. Version: 1.0. Release date: Sep 2017. PANCHIP/2.4GHz Wireless Transceiver SOC Chip/PAN186
The Silent Killer: Antenna Design is Removed
Open the datasheet to the "Layout Guidelines." It is startlingly short. Why? Because Panasonic has done the impossible: They have fully integrated the antenna onto the PCB substrate inside the shield.
This is the PAN186CV’s secret weapon. Competitors require a complex "F" antenna trace, a pi-matching network, and a ground plane cutout. The PAN186CV datasheet simply says: "Place module on edge of board. Keep clear of copper 5mm around the antenna end."
For a hardware engineer, that sentence translates to: One less spin of the PCB. No $10,000 network analyzer rental to tune the antenna. It is a module that assumes you are a software engineer who hates RF voodoo.
2. Key Specifications (From the New Datasheet)
Below are the electrical characteristics extracted directly from the pan186cv datasheet new release. All values are at T(_A) = 25°C unless otherwise noted.
| Parameter | Symbol | Test Conditions | Min | Typ | Max | Unit |
|-----------|--------|----------------|-----|-----|-----|------|
| Input Voltage | V(IN) | – | 2.5 | – | 18 | V |
| Output Voltage Accuracy | – | I(OUT) = 10mA | -1% | – | +1% | – |
| Dropout Voltage | V(DROPOUT) | I(OUT) = 1A | – | 280 | 350 | mV |
| Quiescent Current | I(Q) | No load | – | 1.2 | 2.0 | mA |
| Shutdown Current | I(SD) | EN = GND | – | 0.1 | 1 | µA |
| Line Regulation | – | V(IN) = V(OUT)+1V to 18V | – | 0.02 | 0.05 | %/V |
| Load Regulation | – | I(OUT) = 10mA to 1.5A | – | 0.1 | 0.3 | % |
| PSRR | – | f = 1kHz, I(OUT) = 0.5A | 65 | 72 | – | dB |
| Thermal Shutdown | T(_SD) | Rising temperature | 150 | 165 | – | °C |
Important Update: The new datasheet increases the recommended maximum junction temperature from 125°C to 140°C (absolute maximum 150°C), allowing higher ambient operation for industrial sensors.
The "CV" Factor: What the Datasheet Doesn't Shout
The suffix "CV" typically refers to the Crystal-less feature? Not exactly. In this case, the datasheet highlights that the PAN186CV integrates the entire RF front-end including the 32MHz crystal, but more importantly, it supports the Nordic on-chip DC-DC converter and LDO modes natively.
Here is the killer feature buried in section 6.4 (Power Consumption): 3.4 mA in TX (0 dBm) at 3V. That is while running BLE 5.0’s longer range (125kbps/500kbps modes).
Most engineers skim past the "Long Range" section assuming they need an external PA/LNA. The PAN186CV datasheet clarifies: No. The nRF52810 inside supports PHY layer coded modulation. With this module, you get -96 dBm sensitivity in Bluetooth 5’s 125kbps coded mode. In practical terms? That’s control of a sensor 400 meters away in open air, from a module smaller than your thumbnail.
Pin-to-Pin Evolution
Buried in the mechanical specifications is a nod to the past. The PAN186CV is pin-compatible with its predecessor, the PAN1740. If you have a legacy BLE 4.2 design, you can rip out the old module, drop in the PAN186CV, recompile your firmware for the new SoC, and instantly gain BLE 5.0 features (2x speed, 4x range).
The datasheet lists 24 GPIOs, 4 PWMs, 3 timers, and an 8-channel 12-bit ADC. Notably missing? USB. This module is unapologetically pure BLE. No USB controller wasting die space. No SPI flash for OTA (you get 192kB onboard, so optimize your code). It forces discipline.
The PAN186CV: Panasonic’s Quiet Assertion That BLE 5.0 Doesn’t Have to Be Complicated
In the crowded landscape of Bluetooth Low Energy modules, the conversation has become a binary choice: Go with a legacy nRF52 for stability, or gamble on a newer, power-hungry SoC for "features." Panasonic’s PAN186CV, however, reads the datasheet like a rebuttal to that compromise.
At first glance, the PAN186CV looks like a standard RF can—shielded, compact, and unassuming. But diving into its 80+ page datasheet reveals a device engineered not for hype, but for the harsh realities of industrial sensors, medical wearables, and smart infrastructure.
2. Datasheet Search Engines:
Pan186cv Datasheet New May 2026
, a high-performance 2.4GHz Wireless Transceiver SOC (System on Chip). Product Overview
is a highly integrated SOC designed for low-power wireless communication and high-quality audio processing. It is often used as a versatile solution for digital wireless audio transmission, including smart devices and wireless music players. AliExpress Key Features Wireless Connectivity : Operates in the 2.4GHz ISM band Audio Processing
: Features robust internal audio processing capabilities suitable for high-fidelity music playback. Pin Compatibility : Compatible with the pinout, allowing for easy hardware replacement or upgrades. Energy Efficiency
: Optimized for low power consumption, making it ideal for battery-operated portable devices. Common Applications Wireless headphones and speakers. Smart home audio systems. Low-latency wireless game controllers. Wireless microphones and monitoring systems. AliExpress Suggested Datasheet Structure General Description : High-level summary of the SOC's purpose.
: List of electrical and functional capabilities (2.4GHz transceiver, audio SOC). Pin Configuration : Diagram and table matching the MST7500M footprint. Electrical Characteristics
: Operating voltage, current consumption, and RF sensitivity. Functional Description : Details on the RF engine and audio processing block. Package Information : Physical dimensions and mounting specs. RF specifications Panchip Microelectronics Co., Ltd. pan186cv datasheet new
2.4GHz Wireless Transceiver. Version: 1.0. Release date: Sep 2017. PANCHIP/2.4GHz Wireless Transceiver SOC Chip/PAN186
The Silent Killer: Antenna Design is Removed
Open the datasheet to the "Layout Guidelines." It is startlingly short. Why? Because Panasonic has done the impossible: They have fully integrated the antenna onto the PCB substrate inside the shield.
This is the PAN186CV’s secret weapon. Competitors require a complex "F" antenna trace, a pi-matching network, and a ground plane cutout. The PAN186CV datasheet simply says: "Place module on edge of board. Keep clear of copper 5mm around the antenna end."
For a hardware engineer, that sentence translates to: One less spin of the PCB. No $10,000 network analyzer rental to tune the antenna. It is a module that assumes you are a software engineer who hates RF voodoo.
2. Key Specifications (From the New Datasheet)
Below are the electrical characteristics extracted directly from the pan186cv datasheet new release. All values are at T(_A) = 25°C unless otherwise noted. , a high-performance 2
| Parameter | Symbol | Test Conditions | Min | Typ | Max | Unit |
|-----------|--------|----------------|-----|-----|-----|------|
| Input Voltage | V(IN) | – | 2.5 | – | 18 | V |
| Output Voltage Accuracy | – | I(OUT) = 10mA | -1% | – | +1% | – |
| Dropout Voltage | V(DROPOUT) | I(OUT) = 1A | – | 280 | 350 | mV |
| Quiescent Current | I(Q) | No load | – | 1.2 | 2.0 | mA |
| Shutdown Current | I(SD) | EN = GND | – | 0.1 | 1 | µA |
| Line Regulation | – | V(IN) = V(OUT)+1V to 18V | – | 0.02 | 0.05 | %/V |
| Load Regulation | – | I(OUT) = 10mA to 1.5A | – | 0.1 | 0.3 | % |
| PSRR | – | f = 1kHz, I(OUT) = 0.5A | 65 | 72 | – | dB |
| Thermal Shutdown | T(_SD) | Rising temperature | 150 | 165 | – | °C |
Important Update: The new datasheet increases the recommended maximum junction temperature from 125°C to 140°C (absolute maximum 150°C), allowing higher ambient operation for industrial sensors.
The "CV" Factor: What the Datasheet Doesn't Shout
The suffix "CV" typically refers to the Crystal-less feature? Not exactly. In this case, the datasheet highlights that the PAN186CV integrates the entire RF front-end including the 32MHz crystal, but more importantly, it supports the Nordic on-chip DC-DC converter and LDO modes natively.
Here is the killer feature buried in section 6.4 (Power Consumption): 3.4 mA in TX (0 dBm) at 3V. That is while running BLE 5.0’s longer range (125kbps/500kbps modes).
Most engineers skim past the "Long Range" section assuming they need an external PA/LNA. The PAN186CV datasheet clarifies: No. The nRF52810 inside supports PHY layer coded modulation. With this module, you get -96 dBm sensitivity in Bluetooth 5’s 125kbps coded mode. In practical terms? That’s control of a sensor 400 meters away in open air, from a module smaller than your thumbnail. Websites like Digikey , Mouser , Newark ,
Pin-to-Pin Evolution
Buried in the mechanical specifications is a nod to the past. The PAN186CV is pin-compatible with its predecessor, the PAN1740. If you have a legacy BLE 4.2 design, you can rip out the old module, drop in the PAN186CV, recompile your firmware for the new SoC, and instantly gain BLE 5.0 features (2x speed, 4x range).
The datasheet lists 24 GPIOs, 4 PWMs, 3 timers, and an 8-channel 12-bit ADC. Notably missing? USB. This module is unapologetically pure BLE. No USB controller wasting die space. No SPI flash for OTA (you get 192kB onboard, so optimize your code). It forces discipline.
The PAN186CV: Panasonic’s Quiet Assertion That BLE 5.0 Doesn’t Have to Be Complicated
In the crowded landscape of Bluetooth Low Energy modules, the conversation has become a binary choice: Go with a legacy nRF52 for stability, or gamble on a newer, power-hungry SoC for "features." Panasonic’s PAN186CV, however, reads the datasheet like a rebuttal to that compromise.
At first glance, the PAN186CV looks like a standard RF can—shielded, compact, and unassuming. But diving into its 80+ page datasheet reveals a device engineered not for hype, but for the harsh realities of industrial sensors, medical wearables, and smart infrastructure.
2. Datasheet Search Engines:
- Websites like Digikey, Mouser, Newark, or Farnell often have extensive databases of electronic components, including datasheets. You can search for "PAN186CV" on these platforms.
- Octopart and Chipmlcc are also useful for finding datasheets and comparing prices.