diff --git a/docs/en/SUMMARY.md b/docs/en/SUMMARY.md
index e506ac7b04..53a72b0079 100644
--- a/docs/en/SUMMARY.md
+++ b/docs/en/SUMMARY.md
@@ -152,15 +152,11 @@
- [Wiring Quickstart](assembly/quick_start_pixhawk5x.md)
- [Holybro Pixhawk 4 (FMUv5)](flight_controller/pixhawk4.md)
- [Wiring Quickstart](assembly/quick_start_pixhawk4.md)
- - [Holybro Pixhawk 4 Mini (FMUv5) - Discontinued](flight_controller/pixhawk4_mini.md)
- - [Wiring Quickstart](assembly/quick_start_pixhawk4_mini.md)
- - [Drotek Pixhawk 3 Pro (FMUv4pro) - Discontinued](flight_controller/pixhawk3_pro.md)
- [mRo Pixracer (FMUv4)](flight_controller/pixracer.md)
- [Wiring Quickstart](assembly/quick_start_pixracer.md)
- [Hex Cube Black (FMUv3)](flight_controller/pixhawk-2.md)
- [mRo Pixhawk (FMUv3)](flight_controller/mro_pixhawk.md)
- [mRo (3DR) Pixhawk Wiring Quickstart](assembly/quick_start_pixhawk.md)
- - [Holybro Pixhawk Mini (FMUv3) - Discontinued](flight_controller/pixhawk_mini.md)
- [Manufacturer-Supported Autopilots](flight_controller/autopilot_manufacturer_supported.md)
- [Accton Godwit GA1](flight_controller/accton-godwit_ga1.md)
- [AirMind MindPX](flight_controller/mindpx.md)
@@ -205,22 +201,6 @@
- [PilotPi with Raspberry Pi OS](flight_controller/raspberry_pi_pilotpi_rpios.md)
- [PilotPi with Ubuntu Server](flight_controller/raspberry_pi_pilotpi_ubuntu_server.md)
- [Discontinued Autopilots/Vehicles](flight_controller/autopilot_discontinued.md)
- - [Drotek Dropix (FMUv2)](flight_controller/dropix.md)
- - [Omnibus F4 SD](flight_controller/omnibus_f4_sd.md)
- - [Bitcraze Crazyflie 2.0 ](complete_vehicles_mc/crazyflie2.md)
- - [Aerotenna OcPoC-Zynq Mini](flight_controller/ocpoc_zynq.md)
- - [CUAV X7](flight_controller/cuav_x7.md)
- - [CUAV v5](flight_controller/cuav_v5.md)
- - [CUAV Pixhack v3 (FMUv3)](flight_controller/pixhack_v3.md)
- - [Holybro Kakute F7](flight_controller/kakutef7.md)
- - [Holybro Pixfalcon](flight_controller/pixfalcon.md)
- - [Holybro pix32 (FMUv2)](flight_controller/holybro_pix32.md)
- - [ModalAI Flight Core v1](flight_controller/modalai_fc_v1.md)
- - [ModalAI VOXL Flight](flight_controller/modalai_voxl_flight.md)
- - [mRo X2.1 (FMUv2)](flight_controller/mro_x2.1.md)
- - [mRo AUAV-X2](flight_controller/auav_x2.md)
- - [NXP RDDRONE-FMUK66 FMU](flight_controller/nxp_rddrone_fmuk66.md)
- - [3DR Pixhawk 1](flight_controller/pixhawk.md)
- [Pixhawk Autopilot Bus (PAB) & Carriers](flight_controller/pixhawk_autopilot_bus.md)
- [ARK Electronics Pixhawk Autopilot Bus Carrier](flight_controller/ark_pab.md)
- [Mounting the Flight Controller](assembly/mount_and_orient_controller.md)
diff --git a/docs/en/complete_vehicles_mc/crazyflie2.md b/docs/en/complete_vehicles_mc/crazyflie2.md
index bb4dcc2191..920c814ee3 100644
--- a/docs/en/complete_vehicles_mc/crazyflie2.md
+++ b/docs/en/complete_vehicles_mc/crazyflie2.md
@@ -1,310 +1,7 @@
+
+
+
diff --git a/docs/en/flight_controller/arkpab.md b/docs/en/flight_controller/arkpab.md
index dee03c10b2..e99ee9b8b6 100644
--- a/docs/en/flight_controller/arkpab.md
+++ b/docs/en/flight_controller/arkpab.md
@@ -1 +1,2 @@
+
diff --git a/docs/en/flight_controller/arkv6x.md b/docs/en/flight_controller/arkv6x.md
index f117e5345f..f3812b11af 100644
--- a/docs/en/flight_controller/arkv6x.md
+++ b/docs/en/flight_controller/arkv6x.md
@@ -1 +1,2 @@
+
diff --git a/docs/en/flight_controller/auav_x2.md b/docs/en/flight_controller/auav_x2.md
index 354db83824..89f35a4ec1 100644
--- a/docs/en/flight_controller/auav_x2.md
+++ b/docs/en/flight_controller/auav_x2.md
@@ -1,91 +1,8 @@
+
+
+
diff --git a/docs/en/flight_controller/autopilot_discontinued.md b/docs/en/flight_controller/autopilot_discontinued.md
index 60257d68dd..d5377ec653 100644
--- a/docs/en/flight_controller/autopilot_discontinued.md
+++ b/docs/en/flight_controller/autopilot_discontinued.md
@@ -6,26 +6,28 @@ They are listed because you may be using them in an existing drone, and because
## Autopilots
-- [Drotek DroPix](../flight_controller/dropix.md) (FMUv2)
-- [Omnibus F4 SD](../flight_controller/omnibus_f4_sd.md)
-- [CUAV X7](../flight_controller/cuav_x7.md)
-- [CUAV v5](../flight_controller/cuav_v5.md) (Pixhawk FMUv5)
-- [CUAV Pixhack v3](../flight_controller/pixhack_v3.md) (FMUv3)
-- [Aerotenna OcPoC-Zynq Mini](../flight_controller/ocpoc_zynq.md)
-- [Holybro Pixhawk 4 Mini](../flight_controller/pixhawk4_mini.md) (FMUv5)
-- [Holybro Kakute F7](../flight_controller/kakutef7.md)
-- [Holybro Pixhawk Mini](../flight_controller/pixhawk_mini.md) (FMUv3)
-- [Holybro Pixfalcon](../flight_controller/pixfalcon.md) (Pixhawk FMUv2)
-- [Holybro Pix32](../flight_controller/holybro_pix32.md) (FMUv2)
-- [ModalAI VOXL Flight](../flight_controller/modalai_voxl_flight.md)
-- [ModalAI Flight Core v1](../flight_controller/modalai_fc_v1.md)
-- [mRobotics-X2.1](../flight_controller/mro_x2.1.md) (FMUv2)
-- [mRo AUAV-X2](../flight_controller/auav_x2.md) (Pixhawk FMUv2)
-- [NXP FMUK66](../flight_controller/nxp_rddrone_fmuk66.md) (Discontinued)
-- [3DR Pixhawk 1](../flight_controller/pixhawk.md) (Pixhawk FMUv2)
+- _Drotek DroPix_ (FMUv2) — last published in [PX4 v1.13](https://docs.px4.io/v1.13/en/flight_controller/dropix)
+- _Drotek Pixhawk 3 Pro_ (FMUv4pro) — last published in [PX4 v1.15](https://docs.px4.io/v1.15/en/flight_controller/pixhawk3_pro)
+- _Omnibus F4 SD_ — last published in [PX4 v1.15](https://docs.px4.io/v1.15/en/flight_controller/omnibus_f4_sd)
+- _CUAV X7_ — last published in [PX4 v1.16](https://docs.px4.io/v1.16/en/flight_controller/cuav_x7)
+- _CUAV v5_ (Pixhawk FMUv5) — last published in [PX4 v1.16](https://docs.px4.io/v1.16/en/flight_controller/cuav_v5)
+- _CUAV Pixhack v3_ (FMUv3) — last published in [PX4 v1.15](https://docs.px4.io/v1.15/en/flight_controller/pixhack_v3)
+- _Aerotenna OcPoC-Zynq Mini_ — last published in [PX4v1.11](https://docs.px4.io/v1.11/en/flight_controller/ocpoc_zynq#aerotenna-ocpoc-zynq-mini-flight-controller)
+- _Holybro Pixhawk 4 Mini_ (FMUv5) -— last published in [PX4 v1.16](https://docs.px4.io/v1.16/en/flight_controller/pixhawk4_mini)
+- _Holybro Kakute F7_ — last published in [PX4 v1.15](https://docs.px4.io/v1.15/en/flight_controller/kakutef7)
+- _Holybro Pixhawk Mini_ (FMUv3) — last published in [PX4 v1.15](https://docs.px4.io/v1.15/en/flight_controller/pixhawk_mini)
+- _Holybro Pixfalcon_ (Pixhawk FMUv2) — last published in [PX4 v1.16](https://docs.px4.io/v1.16/en/flight_controller/pixfalcon)
+- _Holybro Pix32_ (FMUv2) — last published in [PX4 v1.15](https://docs.px4.io/v1.15/en/flight_controller/holybro_pix32)
+- _ModalAI VOXL Flight_ — last published in [PX4 v1.16](https://docs.px4.io/v1.16/en/flight_controller/modalai_voxl_flight)
+- _ModalAI Flight Core v1_ — last published in [PX4 v1.11](https://docs.px4.io/v1.11/en/flight_controller/modalai_fc_v1)
+- _mRobotics-X2.1_ (FMUv2) — last published in [PX4 v1.16](https://docs.px4.io/v1.16/en/flight_controller/mro_x2.1)
+- _mRo AUAV-X2_ (Pixhawk FMUv2) — last published in [PX4 v1.15](https://docs.px4.io/v1.15/en/flight_controller/auav_x2)
+- _NXP RDDRONE-FMUK66 FMU_ — last published in [PX4 v1.15 docs](https://docs.px4.io/v1.15/en/flight_controller/nxp_rddrone_fmuk66)
+- _3DR Pixhawk 1_ (Pixhawk FMUv2) — last published in [PX4 v1.15](https://docs.px4.io/v1.15/en/flight_controller/pixhawk)
## Complete Vehicles
-- [BetaFPV Beta75X 2S Brushless Whoop](https://docs.px4.io/v1.14/en/complete_vehicles/betafpv_beta75x#betafpv-beta75x-2s-brushless-whoop) (circa PX4 v1.14)
-- [Intel® Aero RTF Drone](https://docs.px4.io/v1.12/en/complete_vehicles/intel_aero) (circa PX4 v1.12)
-- [Qualcomm Snapdragon Flight](https://docs.px4.io/v1.11/en/flight_controller/snapdragon_flight) (circa PX4 v1.11)
+- _Bitcraze Crazyflie 2.0_ — last published in [PX4 v1.15](https://docs.px4.io/v1.15/en/complete_vehicles_mc/crazyflie2)
+- _BetaFPV Beta75X 2S Brushless Whoop_ — last published in [PX4 v1.14](https://docs.px4.io/v1.14/en/complete_vehicles/betafpv_beta75x#betafpv-beta75x-2s-brushless-whoop)
+- _Intel® Aero RTF Drone_ — last published in [PX4 v1.12](https://docs.px4.io/v1.12/en/complete_vehicles/intel_aero)
+- _Qualcomm Snapdragon Flight_ — last published in [PX4 v1.11](https://docs.px4.io/v1.11/en/flight_controller/snapdragon_flight)
diff --git a/docs/en/flight_controller/cuav_v5.md b/docs/en/flight_controller/cuav_v5.md
index b0bc7547fa..ed3719fbc0 100644
--- a/docs/en/flight_controller/cuav_v5.md
+++ b/docs/en/flight_controller/cuav_v5.md
@@ -1,144 +1,7 @@
+
+
+
-
-::: warning
-This flight controller has been [discontinued](../flight_controller/autopilot_experimental.md) and is no longer commercially available.
-:::
-
-::: warning
-PX4 does not manufacture this (or any) autopilot.
-Contact the [manufacturer](https://store.cuav.net/) for hardware support or compliance issues.
-:::
-
-_CUAV v5_® (previously "Pixhack v5") is an advanced autopilot designed and made by CUAV®.
-The board is based on the [Pixhawk-project](https://pixhawk.org/) **FMUv5** open hardware design.
-It runs PX4 on the [NuttX](https://nuttx.apache.org/) OS, and is fully compatible with PX4 firmware.
-It is intended primarily for academic and commercial developers.
-
-
-
-## Quick Summary
-
-- Main FMU Processor: STM32F765
- - 32 Bit Arm® Cortex®-M7, 216MHz, 2MB memory, 512KB RAM
-- IO Processor: STM32F100
- - 32 Bit Arm® Cortex®-M3, 24MHz, 8KB SRAM
-- On-board sensors:
- - Accelerometer/Gyroscope: ICM-20689
- - Accelerometer/Gyroscope: BMI055
- - Magnetometer: IST8310
- - Barometer: MS5611
-
-- Interfaces:
- - 8-14 PWM outputs (6 from IO, 8 from FMU)
- - 3 dedicated PWM/Capture inputs on FMU
- - Dedicated R/C input for CPPM
- - Dedicated R/C input for PPM and S.Bus
- - analog / PWM RSSI input
- - S.Bus servo output
- - 5 general purpose serial ports
- - 4 I2C ports
- - 4 SPI buses
- - 2 CANBuses with serial ESC
- - Analog inputs for voltage / current of 2 batteries
-- Power System:
- - Power: 4.3~5.4V
- - USB Input: 4.75~5.25V
- - Servo Rail Input: 0~36V
-- Weight and Dimensions:
- - Weight: 90g
- - Dimensions: 44x84x12mm
-- Other Characteristics:
- - Operating temperature: -20 ~ 80°C (Measured value)
-
-## Where to Buy {#store}
-
-Order from [CUAV](https://cuav.taobao.com/index.htm?spm=2013.1.w5002-16371268426.2.411f26d9E18eAz).
-
-## Connection
-
-
-
-::: warning
-The RCIN interface is limited to powering the rc receiver and cannot be connected to any power/load.
-:::
-
-## Voltage Ratings
-
-_CUAV v5_ can be triple-redundant on the power supply if three power sources are supplied. The three power rails are: **POWER1**, **POWER2** and **USB**.
-
-::: info
-The output power rails **FMU PWM OUT** and **I/O PWM OUT** (0V to 36V) do not power the flight controller board (and are not powered by it).
-You must supply power to one of **POWER1**, **POWER2** or **USB** or the board will be unpowered.
-:::
-
-**Normal Operation Maximum Ratings**
-
-Under these conditions all power sources will be used in this order to power the system:
-
-1. **POWER1** and **POWER2** inputs (4.3V to 5.4V)
-1. **USB** input (4.75V to 5.25V)
-
-## Building Firmware
-
-::: tip
-Most users will not need to build this firmware!
-It is pre-built and automatically installed by _QGroundControl_ when appropriate hardware is connected.
-:::
-
-To [build PX4](../dev_setup/building_px4.md) for this target:
-
-```sh
-make px4_fmu-v5_default
-```
-
-## Debug Port
-
-The [PX4 System Console](../debug/system_console.md) and [SWD interface](../debug/swd_debug.md) operate on the **FMU Debug** port.
-Simply connect the FTDI cable to the Debug & F7 SWD connector.
-To access the I/O Debug port, the user must remove the CUAV v5 shell.
-Both ports have standard serial pins and can be connected to a standard FTDI cable (3.3V, but 5V tolerant).
-
-The pinout is as shown.
-
-
-
-| pin | CUAV v5 debug |
-| --- | ------------- |
-| 1 | GND |
-| 2 | FMU-SWCLK |
-| 3 | FMU-SWDIO |
-| 4 | UART7_RX |
-| 5 | UART7_TX |
-| 6 | VCC |
-
-## Serial Port Mapping
-
-| UART | Device | Port |
-| ------ | ---------- | ------------------------------------- |
-| UART1 | /dev/ttyS0 | GPS |
-| USART2 | /dev/ttyS1 | TELEM1 (flow control) |
-| USART3 | /dev/ttyS2 | TELEM2 (flow control) |
-| UART4 | /dev/ttyS3 | TELEM4 |
-| USART6 | /dev/ttyS4 | TX is RC input from SBUS_RC connector |
-| UART7 | /dev/ttyS5 | Debug Console |
-| UART8 | /dev/ttyS6 | PX4IO |
-
-
-
-## Peripherals
-
-- [Digital Airspeed Sensor](https://item.taobao.com/item.htm?spm=a1z10.3-c-s.w4002-16371268452.37.6d9f48afsFgGZI&id=9512463037)
-- [Telemetry Radio Modules](https://cuav.taobao.com/category-158480951.htm?spm=2013.1.w5002-16371268426.4.410b7a821qYbBq&search=y&catName=%CA%FD%B4%AB%B5%E7%CC%A8)
-- [Rangefinders/Distance sensors](../sensor/rangefinders.md)
-
-## Supported Platforms / Airframes
-
-Any multicopter / airplane / rover or boat that can be controlled with normal RC servos or Futaba S-Bus servos.
-The complete set of supported configurations can be seen in the [Airframes Reference](../airframes/airframe_reference.md).
-
-## Further info
-
-- [FMUv5 reference design pinout](https://docs.google.com/spreadsheets/d/1-n0__BYDedQrc_2NHqBenG1DNepAgnHpSGglke-QQwY/edit#gid=912976165).
-- [CUAV Github](https://github.com/cuav)
+DOC REMOVED: 202603
+-->
diff --git a/docs/en/flight_controller/cuav_x7.md b/docs/en/flight_controller/cuav_x7.md
index 0d65fbda8e..8eb0b07db3 100644
--- a/docs/en/flight_controller/cuav_x7.md
+++ b/docs/en/flight_controller/cuav_x7.md
@@ -1,182 +1,7 @@
+
+
+
-
-::: warning
-This flight controller has been [discontinued](../flight_controller/autopilot_experimental.md) and is no longer commercially available.
-It has been superseded by the [CUAV X7+](https://doc.cuav.net/controller/x7/en/).
-:::
-
-::: warning
-PX4 does not manufacture this (or any) autopilot.
-Contact the [manufacturer](https://www.cuav.net) for hardware support or compliance issues.
-:::
-
-The [X7](https://doc.cuav.net/controller/x7/en/)® flight controller is a high-performance autopilot.
-It is an ideal choice for industrial drones and large-scale heavy-duty drones.
-It is mainly supplied to commercial manufacturers.
-
-
-
-The flight controller adopts a modular design and can be matched with different base plates.
-You can design a dedicated carrier board for your UAV to improve the integration of commercial systems, reduce wiring, improve system reliability, and enhance your UAV competitiveness (for example, integrating airspeed sensors, telemetry or even a companion computer, in the carrier board).
-CUAV has also provided a variety of carrier boards for you to choose from.
-
-::: info
-This flight controller is [manufacturer supported](../flight_controller/autopilot_manufacturer_supported.md).
-:::
-
-## Features
-
-- Internal shock absorption
-- Modular design, can be DIY carrier board
-- Support USB_HS, download logs faster (PX4 not yet supported)
-- Support more DShot output
-- Support IMU heating, make the sensor work better
-- Dedicated CAN battery port
-- 3 sets of IMU sensors
-- Car-grade RM3100 compass
-- High performance processor
-
-::: tip
-The manufacturer [CUAV Docs](https://doc.cuav.net/controller/x7/en/) are the canonical reference for the X7.
-They should be used by preference as they contain the most complete and up to date information.
-:::
-
-## Quick Summary
-
-- Main FMU Processor: STM32H743
-- On-board sensors:
- - Accelerometer/Gyroscope: ICM-20689
- - Accelerometer/Gyroscope: ICM-20649
- - Accelerometer/Gyroscope: BMI088
- - Magnetometer: RM3100
- - Barometer: MS5611\*2
-
-- Interfaces:
- - 14 PWM outputs (12 supports Dshot)
- - Support multiple RC inputs (SBUs / CPPM / DSM)
- - Analogue / PWM RSSI input
- - 2 GPS ports(GPS and UART4 ports)
- - 4 i2c buses(Two i2c dedicated ports)
- - 2 CAN bus ports
- - 2 Power ports(Power A is common adc interface, Power C is DroneCAN battery interface)
- - 2 ADC input
- - 1 USB ports
-- Power System:
- - Power: 4.3~5.4V
- - USB Input: 4.75~5.25V
- - Servo Rail Input: 0~36V
-- Weight and Dimensions:
- - Weight: 101 g
-- Other Characteristics:
- - Operating temperature: -20 ~ 80°c(Measured value)
- - Three imus
- - Supports temperature compensation
- - Internal shock absorption
-
-::: info
-When it runs PX4 firmware, only 8 pwm works, the remaining 6 pwm are still being adapted, so it is not compatible with VOLT now.
-:::
-
-## Where to Buy {#store}
-
-[CUAV Store](https://store.cuav.net)
-
-[CUAV aliexpress](https://www.aliexpress.com/item/4001042683738.html?spm=a2g0o.detail.1000060.2.1ebb2a9d3WDryi&gps-id=pcDetailBottomMoreThisSeller&scm=1007.13339.169870.0&scm_id=1007.13339.169870.0&scm-url=1007.13339.169870.0&pvid=f0df2481-1c0a-44eb-92a4-9c11c6cb3d06&_t=gps-id:pcDetailBottomMoreThisSeller,scm-url:1007.13339.169870.0,pvid:f0df2481-1c0a-44eb-92a4-9c11c6cb3d06,tpp_buckets:668%230%23131923%2320_668%23808%234094%23518_668%23888%233325%2319_668%234328%2319934%23630_668%232846%238115%23807_668%232717%237566%23827_668%231000022185%231000066058%230_668%233468%2315607%2376)
-
-## Connections (Wiring)
-
-[CUAV X7 Wiring Quickstart](https://doc.cuav.net/controller/x7/en/quick-start/quick-start-x7-plus.html)
-
-## Size and Pinouts
-
-
-
-
-
-::: warning
-The `RCIN` port is limited to powering the RC receiver and cannot be connected to any power/load.
-:::
-
-## Voltage Ratings
-
-The _X7 AutoPilot_ can be triple-redundant on the power supply if three power sources are supplied.
-The power rails are: **POWERA**, **POWERC** and **USB**.
-
-::: info
-The output power rails **PWM OUT** (0V to 36V) do not power the flight controller board (and are not powered by it).
-You must supply power to one of **POWERA**, **POWERC** or **USB** or the board will be unpowered.
-:::
-
-**Normal Operation Maximum Ratings**
-
-Under these conditions all power sources will be used in this order to power the system:
-
-1. **POWERA** and **POWERC** inputs (4.3V to 5.4V)
-2. **USB** input (4.75V to 5.25V)
-
-## Building Firmware
-
-::: tip
-Most users will not need to build this firmware!
-It is pre-built and automatically installed by _QGroundControl_ when appropriate hardware is connected.
-:::
-
-To [build PX4](../dev_setup/building_px4.md) for this target:
-
-```sh
-make cuav_x7pro_default
-```
-
-## Over Current Protection
-
-The _X7_ has over-current protection on the 5 Volt Peripheral and 5 Volt high power, which limits the current to 2.5A.
-The _X7_ has short circuit protection.
-
-::: warning
-Up to 2.5 A can be delivered to the connectors listed as pin 1 (although these are only rated at 1 A).
-:::
-
-## Debug Port
-
-The system's serial console and SWD interface operate on the **DSU7** port.
-Simply connect the FTDI cable to the DSU7 connector (the product list contains the CUAV FTDI cable).
-
-
-
-The [PX4 System Console](../debug/system_console.md) and [SWD interface](../debug/swd_debug.md) operate on the **FMU Debug** port (`DSU7`).
-
-The debug port (`DSU7`) uses a [JST BM06B](https://www.digikey.com.au/en/products/detail/jst-sales-america-inc/BM06B-GHS-TBT-LF-SN-N/807850) connector and has the following pinout:
-
-| Pin | Signal | Volt |
-| ------- | -------------- | ----- |
-| 1 (red) | 5V+ | +5V |
-| 2 (blk) | DEBUG TX (OUT) | +3.3V |
-| 3 (blk) | DEBUG RX (IN) | +3.3V |
-| 4 (blk) | FMU_SWDIO | +3.3V |
-| 5 (blk) | FMU_SWCLK | +3.3V |
-| 6 (blk) | GND | GND |
-
-CUAV provides a dedicated debugging cable, which can be connected to the `DSU7` port.
-This splits out an FTDI cable for connecting the [PX4 System Console](../debug/system_console.md) to a computer USB port, and SWD pins used for SWD/JTAG debugging.
-The provided debug cable does not connect to the SWD port `Vref` pin (1).
-
-
-
-::: warning
-The SWD Vref pin (1) uses 5V as Vref but the CPU is run at 3.3V!
-
-Some JTAG adapters (SEGGER J-Link) will use the Vref voltage to set the voltage on the SWD lines.
-For direct connection to _Segger Jlink_ we recommended you use the 3.3 Volts from pin 4 of the connector marked `DSM`/`SBUS`/`RSSI` to provide `Vtref` to the JTAG (i.e. providing 3.3V and _NOT_ 5V).
-:::
-
-## Supported Platforms / Airframes
-
-Any multicopter / plane / rover or boat that can be controlled with normal RC servos or Futaba S-Bus servos.
-The complete set of supported configurations can be seen in the [Airframes Reference](../airframes/airframe_reference.md).
-
-## Further info
-
-- [CUAV docs](https://doc.cuav.net/)
-- [x7 schematic](https://github.com/cuav/hardware/tree/master/X7_Autopilot)
+DOC REMOVED: 202603
+-->
diff --git a/docs/en/flight_controller/dropix.md b/docs/en/flight_controller/dropix.md
deleted file mode 100644
index 8faa347f83..0000000000
--- a/docs/en/flight_controller/dropix.md
+++ /dev/null
@@ -1,7 +0,0 @@
-# DroPix Flight Controller (Discontinued)
-
-
-
-The Drotek® _DroPix autopilot_ is no longer available on the Drotek website, and is assumed to be discontinued.
-
-See [PX4 v1.13 Documentation > DroPix Flight Controller](https://docs.px4.io/v1.13/en/flight_controller/dropix) for documentation.
diff --git a/docs/en/flight_controller/holybro_pix32.md b/docs/en/flight_controller/holybro_pix32.md
index 9c3506512f..7ef63fc2af 100644
--- a/docs/en/flight_controller/holybro_pix32.md
+++ b/docs/en/flight_controller/holybro_pix32.md
@@ -1,106 +1,8 @@
+
+
+
+-->
diff --git a/docs/en/flight_controller/kakutef7.md b/docs/en/flight_controller/kakutef7.md
index d7a112402e..72e2f77c50 100644
--- a/docs/en/flight_controller/kakutef7.md
+++ b/docs/en/flight_controller/kakutef7.md
@@ -1,142 +1,7 @@
+
+
+
-
-## Debug Port
-
-### System Console
-
-UART3 RX and TX are configured for use as the [System Console](../debug/system_console.md).
-
-### SWD
-
-The [SWD interface](../debug/swd_debug.md) (JTAG) pins are:
-
-- `SWCLK`: Test Point 2 (Pin 72 on the CPU)
-- `SWDIO`: Test Point 3 (Pin 76 on CPU)
-- `GND`: As marked on board
-- `VDD_3V3`: As marked on board
-
-These are shown below.
-
- 
+DOC REMOVED: 202603
+-->
diff --git a/docs/en/flight_controller/modalai_fc_v1.md b/docs/en/flight_controller/modalai_fc_v1.md
index 2f91d80dd1..c7729f854a 100644
--- a/docs/en/flight_controller/modalai_fc_v1.md
+++ b/docs/en/flight_controller/modalai_fc_v1.md
@@ -1,146 +1,7 @@
-# ModalAI Flight Core v1
+
-
+
-
-[stm32f765ii]: https://www.st.com/en/microcontrollers-microprocessors/stm32f765ii.html
-[bmp388]: https://www.adafruit.com/product/3966
-[icm-20602]: https://invensense.tdk.com/products/motion-tracking/6-axis/icm-20602/
-[bmi088]: https://www.bosch-sensortec.com/products/motion-sensors/imus/bmi088/
-[px4]: https://github.com/PX4/PX4-Autopilot/tree/main/boards/modalai/fc-v1
-[a71ch]: https://www.nxp.com/products/security-and-authentication/authentication/plug-and-trust-the-fast-easy-way-to-deploy-secure-iot-connections:A71CH
-
-## Dimensions
-
-
-
-## PX4 Firmware Compatibility
-
-_Flight Core v1_ is fully compatible with the official PX4 Firmware from PX4 v1.11.
-
-ModalAI maintains a [branched PX4 version](https://github.com/modalai/px4-firmware/tree/modalai-1.11) for PX4 v1.11.
-This includes UART ESC support and improvements in VIO and VOA that are planned to be upstreamed.
-
-More information about the firmware can be found [here](https://docs.modalai.com/flight-core-firmware/).
-
-## QGroundControl Support
-
-This board is supported in QGroundControl 4.0 and later.
-
-## Availability
-
-- No longer available
-
-## Quick Start
-
-### Orientation
-
-The diagram below shows the recommended orientation, which corresponds to `ROTATION_NONE` starting with PX4 v1.11.
-
-
-
-### Connectors
-
-Detailed information about the pinouts can be found [here](https://docs.modalai.com/flight-core-datasheet-connectors/).
-
-
-
-| Connector | Summary |
-| --------- | ---------------------------------------------------------- |
-| J1 | VOXL Communications Interface Connector (TELEM2) |
-| J2 | Programming and Debug Connector |
-| J3 | USB Connector |
-| J4 | UART2, UART ESC (TELEM3) |
-| J5 | Telemetry Connector (TELEM1) |
-| J6 | VOXL-Power Management Input / Expansion |
-| J7 | 8-Channel PWM Output Connector |
-| J8 | CAN Bus Connector |
-| J9 | PPM RC In |
-| J10 | External GPS & Magnetometer Connector |
-| J12 | RC input, Spektrum/SBus/UART Connector |
-| J13 | I2C Display (Spare Sensor Connector) / Safety Button Input |
-
-
-
-### User Guide
-
-The full user guide is available [here](https://docs.modalai.com/flight-core/).
-
-### How to Build
-
-To [build PX4](../dev_setup/building_px4.md) for this target:
-
-```sh
-make modalai_fc-v1
-```
-
-## Serial Port Mapping
-
-| UART | Device | Port |
-| ------ | ---------- | ---------------------------------------- |
-| USART1 | /dev/ttyS0 | GPS1 (J10) |
-| USART2 | /dev/ttyS1 | TELEM3 (J4) |
-| USART3 | /dev/ttyS2 | Debug Console (J2) |
-| UART4 | /dev/ttyS3 | Expansion UART (J6) |
-| UART5 | /dev/ttyS4 | TELEM2, Primary VOXL Communications (J1) |
-| USART6 | /dev/ttyS5 | RC (J12) |
-| UART7 | /dev/ttyS6 | TELEM1 (J5) |
-| UART8 | /dev/ttyS7 | N/A |
-
-
-
-## Support
-
-Please visit the [ModalAI Forum](https://forum.modalai.com/category/10/flight-core) for more information.
+DOC REMOVED: 202603
+-->
diff --git a/docs/en/flight_controller/modalai_voxl_flight.md b/docs/en/flight_controller/modalai_voxl_flight.md
index 9dd9a041b7..7f5ee9210d 100644
--- a/docs/en/flight_controller/modalai_voxl_flight.md
+++ b/docs/en/flight_controller/modalai_voxl_flight.md
@@ -1,202 +1,7 @@
-# ModalAI VOXL Flight
+
-
+
-
-[stm32f765ii]: https://www.st.com/en/microcontrollers-microprocessors/stm32f765ii.html
-[px4]: https://github.com/PX4/PX4-Autopilot/tree/main/boards/modalai/fc-v1
-[icm-20602]: https://invensense.tdk.com/products/motion-tracking/6-axis/icm-20602/
-[bmi088]: https://www.bosch-sensortec.com/products/motion-sensors/imus/bmi088/
-[bmp388]: https://www.adafruit.com/product/3966
-[a71ch]: https://www.nxp.com/products/security-and-authentication/authentication/plug-and-trust-the-fast-easy-way-to-deploy-secure-iot-connections:A71CH
-
-::: info
-More detailed hardware documentation can be found [here](https://docs.modalai.com/voxl-flight-datasheet/).
-:::
-
-## Dimensions
-
-
-
-[3D STEP File](https://storage.googleapis.com/modalai_public/modal_drawings/M0019_VOXL-Flight.zip)
-
-## PX4 Firmware Compatibility
-
-_VOXL Flight_ is fully compatible with the official PX4 Firmware from PX4 v1.11.
-
-ModalAI maintains a [branched PX4 version](https://github.com/modalai/px4-firmware/tree/modalai-1.11) for PX4 v1.11.
-This includes UART ESC support and improvements in VIO and VOA that are planned to be upstreamed.
-
-More information about the firmware can be found [here](https://docs.modalai.com/flight-core-firmware/).
-
-## QGroundControl Support
-
-This board is supported in QGroundControl 4.0 and later.
-
-## Availability
-
-No longer available.
-
-## Quick Start
-
-A quickstart from the vendor is located [here](https://docs.modalai.com/voxl-flight-quickstart/).
-
-### voxl-vision-px4
-
-The VOXL Flight runs [voxl-vision-px4](https://gitlab.com/voxl-public/voxl-sdk/services/voxl-vision-hub) on the companion computer portion of the hardware serving as a sort of MAVLink proxy.
-For details, the source code is available [here](https://gitlab.com/voxl-public/voxl-sdk/services/voxl-vision-hub)
-
-### Connectors
-
-Detailed information about the pinouts can be found [here](https://docs.modalai.com/voxl-flight-datasheet-connectors/).
-
-#### Top
-
-
-
-_Note: 1000 Series connectors accessible from the STM32/PX4_
-
-| Connector | Summary | Used By |
-| --------- | -------------------------------------- | --------------------------------- |
-| J2 | Hires 4k Image Sensor (CSI0) | Snapdragon - Linux |
-| J3 | Stereo Image Sensor (CSI1) | Snapdragon - Linux |
-| J6 | Cooling Fan Connector | Snapdragon - Linux |
-| J7 | BLSP6 (GPIO) and BLSP9 (UART) | Snapdragon - Linux |
-| J13 | Expansion B2B | Snapdragon - Linux |
-| J14 | Integrated GNSS Antenna Connection | Snapdragon - Linux |
-| J1001 | Programming and Debug/UART3 | STM32 - PX4 |
-| J1002 | UART ESC, UART2/TELEM3 | STM32 - PX4 |
-| J1003 | PPM RC In | STM32 - PX4 |
-| J1004 | RC Input, Spektrum/SBus/UART6 | STM32 - PX4 |
-| J1006 | USB 2.0 Connector (PX4/QGroundControl) | STM32 - PX4 |
-| J1007 | 8-Channel PWM/DShot Output | STM32 - PX4 |
-| J1008 | CAN Bus | STM32 - PX4 |
-| J1009 | I2C3, UART4 | STM32 - PX4 |
-| J1010 | Telemetry (TELEM1) | STM32 - PX4 |
-| J1011 | I2C2, Safety Button Input | STM32 - PX4 |
-| J1012 | External GPS & Mag, UART1, I2C1 | STM32 - PX4 |
-| J1013 | Power Input, I2C3 | STM32 - PX4 (powers whole system) |
-
-#### Bottom
-
-
-
-_Note: 1000 Series connectors accessible from the STM32/PX4_
-
-| Connector | Summary | Used By |
-| -------------- | --------------------------------------- | --------------------------- |
-| J4 | Tracking/Optic Flow Image Sensor (CSI2) | Snapdragon - Linux |
-| J8 | USB 3.0 OTG | Snapdragon - Linux, **adb** |
-| J10 | BLSP7 UART and I2C off-board | Snapdragon - Linux |
-| J11 | BLSP12 UART and I2C off-board | Snapdragon - Linux |
-| VOXL microSD | | Snapdragon - Linux |
-| PX4 microSD | 32Gb Max | STM32 - PX4 |
-| Wi-Fi Antennas | Included | Snapdragon - Linux |
-
-### User Guide
-
-The full user guide is available [here](https://docs.modalai.com/voxl-flight-quickstart/).
-
-### How to Build
-
-To [build PX4](../dev_setup/building_px4.md) for this target:
-
-```sh
-make modalai_fc-v1
-```
-
-## Serial Port Mapping
-
-_Note: mappings shown are for the PX4 controlled interfaces only_
-
-| UART | Device | Port |
-| ------ | ---------- | --------------------------------------- |
-| USART1 | /dev/ttyS0 | GPS1 (J1012) |
-| USART2 | /dev/ttyS1 | TELEM3 (J1002) |
-| USART3 | /dev/ttyS2 | Debug Console (J1001) |
-| UART4 | /dev/ttyS3 | Expansion UART (J6) |
-| UART5 | /dev/ttyS4 | UART between PX4 and Companion Computer |
-| USART6 | /dev/ttyS5 | RC (J1004) |
-| UART7 | /dev/ttyS6 | TELEM1 (J1010) |
-| UART8 | /dev/ttyS7 | N/A |
-
-
-
-## Support
-
-Please visit the [ModalAI Forum](https://forum.modalai.com/category/8/voxl-flight) for more information.
+DOC REMOVED: 202603
+-->
diff --git a/docs/en/flight_controller/mro_x2.1.md b/docs/en/flight_controller/mro_x2.1.md
index fd1510da20..1be40508d7 100644
--- a/docs/en/flight_controller/mro_x2.1.md
+++ b/docs/en/flight_controller/mro_x2.1.md
@@ -1,122 +1,10 @@
+
+
+
+Doc removed 202603
+ text="Discontinued" 202507 / PX4v1.16
-::: warning
-This flight controller has been [discontinued](../flight_controller/autopilot_experimental.md) and is no longer commercially available.
-:::
-
-::: warning
-PX4 does not manufacture this (or any) autopilot.
-Contact the [manufacturer](https://store.mrobotics.io/) for hardware support or compliance issues.
-:::
-
-The (mRobotics) _mRo-X2.1_ autopilot is based on the [Pixhawk®-project](https://pixhawk.org/) **FMUv2** open hardware design.
-It runs PX4 on the [NuttX](https://nuttx.apache.org/) OS.
-
-
-
-::: info
-This flight controller is [manufacturer supported](../flight_controller/autopilot_manufacturer_supported.md).
-:::
-
-## Quick Summary
-
-- Main System-on-Chip: [STM32F427](https://www.st.com/en/microcontrollers-microprocessors/stm32f427-437.html)
- - CPU: STM32F427VIT6 ARM® microcontroller - Revision 3
- - IO: STM32F100C8T6 ARM® microcontroller
-- Sensors:
- - Invensense® MPU9250 9DOF
- - Invensense ICM-20602 6DOF
- - MEAS MS5611 barometer
-- Dimensions/Weight
- - Size: 36mm x 50mm
- (Can be ordered with vertical, horizontal or no headers installed)
- - Mounting Points: 30.5mm x 30.5mm 3.2mm diameter
- - Weight: 10.9g
-
-The diagram below provides a side-by-side comparison with a Pixhawk 1.
-The mRo features almost identical hardware and connectivity but
-has a much smaller footprint.
-Major differences are updated sensors and Rev 3 FMU.
-
-
-
-## Connectivity
-
-- 2.54mm headers:
-- GPS (UART4) with I2C
-- CAN Bus
-- RC input
-- PPM input
-- Spektrum input
-- RSSI input
-- sBus input
-- sBus output
-- Power input
-- Buzzer output
-- LED output
-- 8 x Servo outputs
-- 6 x Aux outputs
-- Offboard microUSB connector
-- Kill Pin output _(Currently not supported by firmware)_
-- AirSpeed Sensor
-- USART2 (Telem 1)
-- USART3 (Telem 2)
-- UART7 (Console)
-- UART8 (OSD)
-
-## PX4 BootLoader Issue
-
-By default a mRo X2.1 might come preconfigured for ArduPilot® rather than PX4. This
-can be seen during firmware update when the board is recognized as FMUv2 instead of X2.1.
-
-In this case you must update the BootLoader using [BL_Update_X21.zip](https://github.com/PX4/PX4-Autopilot/raw/main/docs/assets/hardware/BL_Update_X21.zip).
-If this correction is not carried out your compass direction will be wrong and the
-secondary IMU will not be detected.
-
-The update steps are:
-
-1. Download and extract [BL_Update_X21.zip](https://github.com/PX4/PX4-Autopilot/raw/main/docs/assets/hardware/BL_Update_X21.zip).
-2. Find the folder _BL_Update_X21_. This contains a **bin** file and a subfolder named **/etc** containing an **rc.txt** file
-3. Copy these files to your micro SD card's root directory and insert it into the mRO x2.1
-4. Power on the mRO x2.1 Wait for it to boot and then reboot 1 time.
-
-## Availability
-
-This product can be ordered at the [mRobotics® Store](https://store.mrobotics.io/mRo-X2-1-Rev-2-p/m10021a.htm).
-
-## Wiring Guide
-
-
-
-## Building Firmware
-
-::: tip
-Most users will not need to build this firmware!
-It is pre-built and automatically installed by _QGroundControl_ when appropriate hardware is connected.
-:::
-
-To [build PX4](../dev_setup/building_px4.md) for this target:
-
-```sh
-make mro_x21_default
-```
-
-## Schematics
-
-The board is documented on the mRo hardware repo: [x21_V2_schematic.pdf](https://github.com/mRoboticsIO/Hardware/blob/master/X2.1/Docs/x21_V2_schematic.pdf).
-
-## Serial Port Mapping
-
-| UART | Device | Port |
-| ------ | ---------- | --------------- |
-| USART1 | /dev/ttyS0 | IO debug |
-| USART2 | /dev/ttyS1 | SERIAL1 |
-| USART3 | /dev/ttyS2 | TELEM2 |
-| UART4 | /dev/ttyS3 | GPS/I2C |
-| USART6 | /dev/ttyS4 | PX4IO |
-| UART7 | /dev/ttyS5 | SERIAL5 CONSOLE |
-| UART8 | /dev/ttyS6 | SERIAL4 |
-
-
+Note: Got ports using https://github.com/PX4/PX4-user_guide/pull/672#issuecomment-598198434
+-->
diff --git a/docs/en/flight_controller/nxp_rddrone_fmuk66.md b/docs/en/flight_controller/nxp_rddrone_fmuk66.md
index d9cbb667e4..b57415577c 100644
--- a/docs/en/flight_controller/nxp_rddrone_fmuk66.md
+++ b/docs/en/flight_controller/nxp_rddrone_fmuk66.md
@@ -1,131 +1,7 @@
+
+
+
-
-## Where to Buy {#store}
-
-**RDDRONE-FMUK66** reference design kit may be purchased direct from NXP or from any of NXP's authorised worldwide network of [electronics distributors](https://www.nxp.com/support/sample-and-buy/distributor-network:DISTRIBUTORS).
-
-- [Purchase Link](https://www.nxp.com/products/no-longer-manufactured/px4-robotic-drone-vehicle-flight-management-unit-vmu-fmu-rddrone-fmuk66:RDDRONE-FMUK66#buy) (www.nxp.com)
-- Telemetry radios are purchased separately depending on frequency band:
- - [HGD-TELEM433](https://www.nxp.com/part/HGD-TELEM433)
- - [HGD-TELEM915](https://www.nxp.com/part/HGD-TELEM915)
-
-::: info
-_RDDRONE-FMUK66_ FMU is also included in the complete HoverGames drone kit: [KIT-HGDRONEK66](https://www.nxp.com/products/no-longer-manufactured/nxp-hovergames-drone-kit-including-flight-controller-and-peripherals:KIT-HGDRONEK66#buy)
-:::
-
-
-
-## Assembly/Setup
-
-https://nxp.gitbook.io/hovergames
-
-## Building Firmware
-
-::: tip
-Most users will not need to build this firmware!
-It is pre-built and automatically installed by _QGroundControl_ when appropriate hardware is connected.
-:::
-
-To [build PX4](../dev_setup/building_px4.md) for this target:
-
-```sh
-make nxp_fmuk66-v3_default
-```
-
-## Debug Port
-
-The [PX4 System Console](../debug/system_console.md) and the [SWD interface](../debug/swd_debug.md) run on the [DCD-LZ FMU Debug](https://nxp.gitbook.io/hovergames/rddrone-fmuk66/connectors/debug-interface-dcd-lz) port.
-
-NXP's DCD-LZ is a 7 pin JST-GH connector and adds the nRST/MCU_RESET pin to the [Pixhawk 6-Pin standard debug port](https://github.com/pixhawk/Pixhawk-Standards/blob/master/DS-009%20Pixhawk%20Connector%20Standard.pdf).
-
-The DCD-LZ breakout adapter permits the use of a standard 10 pin JTAG/SWD interface (i.e. using the Segger Jlink) and a standard 5 pin FTDI USB-TTL-3V3 type cable.
-
-
-
-## Supported Platforms / Airframes
-
-Any multicopter / airplane / rover or boat that can be controlled with normal RC servos or Futaba S-Bus servos.
-The complete set of supported configurations can be seen in the [Airframes Reference](../airframes/airframe_reference.md).
-
-
-
-::: tip
-The NXP [HoverGames Drone Kit](https://www.nxp.com/kit-hgdronek66) (shown above) is a complete drone development kit that includes everything needed to build a quadcopter.
-You only need to supply the 3S/4S LiPo battery.
-:::
-
-## Further info
-
-- [HoverGames online documentation](https://nxp.gitbook.io/hovergames) PX4 user and programming guide, specific assembly, construction, debugging, programming instructions.
-
-- 3DModels supporting HoverGames and RDDRONE-FMUK66 can be found on _Thingiverse_ at these search links: [fmuk66](https://www.thingiverse.com/search?q=fmuk66&type=things&sort=relevant), [hovergames](https://www.thingiverse.com/search?q=hovergames&type=things&sort=relevant).
-
-
diff --git a/docs/en/flight_controller/ocpoc_zynq.md b/docs/en/flight_controller/ocpoc_zynq.md
index 42393ce0d4..807468b20f 100644
--- a/docs/en/flight_controller/ocpoc_zynq.md
+++ b/docs/en/flight_controller/ocpoc_zynq.md
@@ -1,12 +1,7 @@
+
+
+
diff --git a/docs/en/flight_controller/omnibus_f4_sd.md b/docs/en/flight_controller/omnibus_f4_sd.md
index c43618560c..b7d37a2db2 100644
--- a/docs/en/flight_controller/omnibus_f4_sd.md
+++ b/docs/en/flight_controller/omnibus_f4_sd.md
@@ -1,261 +1,7 @@
-# Omnibus F4 SD
+
-::: warning
-This flight controller has been [discontinued](../flight_controller/autopilot_experimental.md) and is no longer commercially available.
-:::
+
-
-## RC Telemetry
-
-The Omnibus supports telemetry to the RC Transmitter using [FrSky Telemetry](../peripherals/frsky_telemetry.md) or [CRSF Crossfire Telemetry](#crsf_telemetry).
-
-
-
-### CRSF Crossfire Telemetry
-
-[TBS CRSF Telemetry](../telemetry/crsf_telemetry.md) may be used to send telemetry data from the flight controller (the vehicle's attitude, battery, flight mode and GPS data) to an RC transmitter such as a Taranis.
-
-Benefits over [FrSky telemetry](../peripherals/frsky_telemetry.md) include:
-
-- Only a single UART is needed for RC and telemetry.
-- The CRSF protocol is optimized for low latency.
-- 150 Hz RC update rate.
-- The signals are uninverted and thus no (external) inverter logic is required.
-
-::: info
-If you use CRSF Telemetry you will need to build custom PX4 firmware.
-By contrast, FrSky telemetry can use prebuilt firmware.
-:::
-
-For Omnibus we recommend the [TBS Crossfire Nano RX](https://www.team-blacksheep.com/products/prod:crossfire_nano_rx), since it is specifically designed for small Quads.
-
-On the handheld controller (e.g. Taranis) you will also need a [Transmitter Module](https://www.team-blacksheep.com/shop/cat:tbs-crossfire-radio-transmitter#product_listing).
-This can be plugged into the back of the RC controller.
-
-::: info
-The referenced links above contain the documentation for the TX/RX modules.
-:::
-
-#### Setup
-
-Connect the Nano RX and Omnibus pins as shown:
-
-| Omnibus UART1 | Nano RX |
-| ------------- | ------- |
-| TX | Ch2 |
-| RX | Ch1 |
-
-Next update the TX/RX modules to use the CRSF protocol and set up telemetry.
-Instructions for this are provided in the [TBS Crossfire Manual](https://www.team-blacksheep.com/media/files/tbs-crossfire-manual.pdf) (search for 'Setting up radio for CRSF').
-
-#### PX4 CRSF Configuration
-
-You will need to build custom firmware to use CRSF.
-For more information see [CRSF Telemetry](../telemetry/crsf_telemetry.md#px4-configuration).
-
-
-
-## PX4 Bootloader Update {#bootloader}
-
-The board comes pre-installed with [Betaflight](https://github.com/betaflight/betaflight/wiki).
-Before PX4 firmware can be installed, the _PX4 bootloader_ must be flashed.
-Download the [omnibusf4sd_bl.hex](https://github.com/PX4/PX4-Autopilot/raw/main/docs/assets/flight_controller/omnibus_f4_sd/omnibusf4sd_bl_d52b70cb39.hex) bootloader binary and read [this page](../advanced_config/bootloader_update_from_betaflight.md) for flashing instructions.
-
-## Building Firmware
-
-To [build PX4](../dev_setup/building_px4.md) for this target:
-
-```sh
-make omnibus_f4sd_default
-```
-
-## Installing PX4 Firmware
-
-You can use either pre-built firmware or your own custom firmware.
-
-::: warning
-If you use [CRSF Telemetry](../telemetry/crsf_telemetry.md#px4-configuration) in your radio system, as describe above, then you must use custom firmware.
-:::
-
-The firmware can be installed in any of the normal ways:
-
-- Build and upload the source
-
- ```sh
- make omnibus_f4sd_default upload
- ```
-
-- [Load the firmware](../config/firmware.md) using _QGroundControl_.
-
-## Configuration
-
-In addition to the [basic configuration](../config/index.md), the following parameters are important:
-
-| Parameter | Setting |
-| ---------------------------------------------------------------------- | ----------------------------------------------------------------------------------------------------------------------- |
-| [SYS_HAS_MAG](../advanced_config/parameter_reference.md#SYS_HAS_MAG) | This should be disabled since the board does not have an internal mag. You can enable it if you attach an external mag. |
-| [SYS_HAS_BARO](../advanced_config/parameter_reference.md#SYS_HAS_BARO) | Disable this if your board does not have a barometer. |
-
-## Further Info
-
-[This page](https://blog.unmanned.tech/omnibus-f4-flight-controller-guide/) provides a good overview with pinouts and setup instructions.
+DOC REMOVED: 202603
+-->
diff --git a/docs/en/flight_controller/pixfalcon.md b/docs/en/flight_controller/pixfalcon.md
index 87a72df33d..ad95ab4c86 100644
--- a/docs/en/flight_controller/pixfalcon.md
+++ b/docs/en/flight_controller/pixfalcon.md
@@ -1,75 +1,5 @@
+
+
+
+ text="Discontinued" px4_current="v1.15" year="2024". This change in 202603 -->
diff --git a/docs/en/flight_controller/pixhack_v3.md b/docs/en/flight_controller/pixhack_v3.md
index ca409fc2a5..d7907a18c3 100644
--- a/docs/en/flight_controller/pixhack_v3.md
+++ b/docs/en/flight_controller/pixhack_v3.md
@@ -1,88 +1,8 @@
+
+
+
-
-## Serial Port Mapping
-
-| UART | Device | Port |
-| ------ | ---------- | --------------------- |
-| UART1 | /dev/ttyS0 | IO debug |
-| USART2 | /dev/ttyS1 | TELEM1 (flow control) |
-| USART3 | /dev/ttyS2 | TELEM2 (flow control) |
-| UART4 | | |
-| UART7 | | CONSOLE |
-| UART8 | | SERIAL4 |
+-->
diff --git a/docs/en/flight_controller/pixhawk.md b/docs/en/flight_controller/pixhawk.md
index a7b33a4782..c8bd92ee33 100644
--- a/docs/en/flight_controller/pixhawk.md
+++ b/docs/en/flight_controller/pixhawk.md
@@ -1,337 +1,6 @@
+
+
+
-
-## Debug Ports
-
-### Console Port
-
-The [PX4 System Console](../debug/system_console.md) runs on the port labeled [SERIAL4/5](#serial-4-5-port).
-
-::: tip
-A convenient way to connect to the console is to use a [Zubax BugFace BF1](https://github.com/Zubax/bugface_bf1), as it comes with connectors that can be used with several different Pixhawk devices.
-Simply connect the 6-pos DF13 1:1 cable on the [Zubax BugFace BF1](https://github.com/Zubax/bugface_bf1) to the Pixhawk `SERIAL4/5` port.
-
-
-:::
-
-The pinout is standard serial pinout, designed to connect to a [3.3V FTDI](https://www.digikey.com/en/products/detail/TTL-232R-3V3/768-1015-ND/1836393) cable (5V tolerant).
-
-| 3DR Pixhawk 1 | | FTDI |
-| ------------- | --------- | ---- | ---------------- |
-| 1 | +5V (red) | | N/C |
-| 2 | S4 Tx | | N/C |
-| 3 | S4 Rx | | N/C |
-| 4 | S5 Tx | 5 | FTDI RX (yellow) |
-| 5 | S5 Rx | 4 | FTDI TX (orange) |
-| 6 | GND | 1 | FTDI GND (black) |
-
-The wiring for an FTDI cable to a 6-pos DF13 1:1 connector is shown in the figure below.
-
-
-
-The complete wiring is shown below.
-
-
-
-::: info
-For information on how to _use_ the console see: [System Console](../debug/system_console.md).
-:::
-
-### SWD Port
-
-The [SWD](../debug/swd_debug.md) (JTAG) ports are hidden under the cover (which must be removed for hardware debugging).
-There are separate ports for FMU and IO, as highlighted below.
-
-
-
-The ports are ARM 10-pin JTAG connectors, which you will probably have to solder.
-The pinout for the ports is shown below (the square markers in the corners above indicates pin 1).
-
-
-
-::: info
-All Pixhawk FMUv2 boards have a similar SWD port.
-:::
-
-## Building Firmware
-
-::: tip
-Most users will not need to build this firmware!
-It is pre-built and automatically installed by _QGroundControl_ when appropriate hardware is connected.
-:::
-
-To [build PX4](../dev_setup/building_px4.md) for this target:
-
-```sh
-make px4_fmu-v2_default
-```
-
-## Parts / Housings
-
-- **ARM MINI JTAG (J6)**: 1.27 mm 10pos header (SHROUDED), for Black Magic Probe: FCI 20021521-00010D4LF ([Digi-Key](https://www.digikey.com/en/products/detail/20021521-00010T1LF/609-4054-ND/2414951),) or Samtec FTSH-105-01-F-DV-K (untested) or Harwin M50-3600542 ([Digikey](https://www.digikey.com/en/products/detail/harwin-inc/M50-3600542/2264370))
- - JTAG Adapter Option #1: [BlackMagic Probe](https://1bitsquared.com/products/black-magic-probe). Note, may come without cables (check with manufacturer).
- If so, you will need the **Samtec FFSD-05-D-06.00-01-N** cable ([Samtec sample service](https://www.samtec.com/products/ffsd-05-d-06.00-01-n) or [Digi-Key Link: SAM8218-ND](https://www.digikey.com/en/products/detail/samtec-inc/ffsd-05-d-06-00-01-n/1106577)) or [Tag Connect Ribbon](https://www.tag-connect.com/product/10-pin-cortex-ribbon-cable-4-length-with-50-mil-connectors) and a Mini-USB cable.
- - JTAG Adapter Option #2: [Digi-Key Link: ST-LINK/V2](https://www.digikey.com/product-detail/en/stmicroelectronics/ST-LINK-V2/497-10484-ND) / [ST USER MANUAL](https://www.st.com/resource/en/user_manual/dm00026748.pdf), needs an ARM Mini JTAG to 20pos adapter: [Digi-Key Link: 726-1193-ND](https://www.digikey.com/en/products/detail/texas-instruments/MDL-ADA2/1986451)
- - JTAG Adapter Option #3: [Olimex ARM-TINY](https://www.olimex.com/wiki/ARM-USB-TINY) or any other OpenOCD-compatible ARM Cortex JTAG adapter, needs an ARM Mini JTAG to 20pos adapter: [Digi-Key Link: 726-1193-ND](https://www.digikey.com/en/products/detail/texas-instruments/MDL-ADA2/1986451)
-- **USARTs**: Hirose DF13 6 pos ([Digi-Key Link: DF13A-6P-1.25H(20)](https://www.digikey.com/products/en?keywords=H3371-ND))
- - Mates: Hirose DF13 6 pos housing ([Digi-Key Link: Hirose DF13-6S-1.25C](https://www.digikey.com/products/en?keywords=H2182-ND))
-- **I2C and CAN**: Hirose DF13 4 pos ([Digi-Key Link: DF13A-4P-1.25H(20)](https://www.digikey.com/en/products/detail/hirose-electric-co-ltd/DF13A-4P-1-25H-20/530666) - discontinued)
-
-## Supported Platforms / Airframes
-
-Any multicopter / airplane / rover or boat that can be controlled with normal RC servos or Futaba S-Bus servos.
+Doc removed 202604
+-->
diff --git a/docs/en/flight_controller/pixhawk3_pro.md b/docs/en/flight_controller/pixhawk3_pro.md
index 0ca6562467..deaacad9ac 100644
--- a/docs/en/flight_controller/pixhawk3_pro.md
+++ b/docs/en/flight_controller/pixhawk3_pro.md
@@ -1,87 +1,7 @@
+
+
+
+DOC REMOVED: 202603
+-->
diff --git a/docs/en/flight_controller/pixhawk4_mini.md b/docs/en/flight_controller/pixhawk4_mini.md
index b4842e795d..d5ccdebf6a 100644
--- a/docs/en/flight_controller/pixhawk4_mini.md
+++ b/docs/en/flight_controller/pixhawk4_mini.md
@@ -1,160 +1,7 @@
+
+
+
diff --git a/docs/en/flight_controller/pixhawk_mini.md b/docs/en/flight_controller/pixhawk_mini.md
index 3126360657..5cef4b678c 100644
--- a/docs/en/flight_controller/pixhawk_mini.md
+++ b/docs/en/flight_controller/pixhawk_mini.md
@@ -1,324 +1,7 @@
+
+
+