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BETAFPV SuperD ELRS is the first True Diversity Receiver that applies two antennas, twin receiver chains, and TCXO (temperature compensated crystal oscillator) tech, attaining a brilliant accurate frequency fee and ideal functionality in extreme temperature environments It gives 2 and 915MHz/868MHz versions, and significantly fulfills the necessities of reliability for long-range flying, aerial photography, or FPV freestyle methods
Bullet Points
A true range receiver with two total RF receiver chains (referring to dual SX1280/SX1281 or twin SX1276), according to the newest reliable ExprssLRS It comes with ExpressLRS V3 firmware
Ultralight weight is only 1 with out the antenna The receiver board contains a reasonable layout and is impeccably clear Very clean to solder
Two Dipole T antennas will create an omnidirectional signal for good sign transmission Placing the antenna individually and vertically as a long way apart as possible to get a closer sign is suggested
Not solely it is used for FPV drones but in addition for FPV fixed-wing, or other FPV aircraft It has fine functionality in long-range flying
The first true range receiver for the 915MHz/868MHz frequency bands, with two separate receiving modules operating together to improve signal reception quality and general reliability
The 900MHz radio components displays greater diffraction potential because of its decrease frequency, while the two systems tend to be directional and vulnerable to attenuation brought on by buildings, foliage, or moisture
Specification
Item: BETAFPV SuperD ELRS 2/915MHz/868MHzDiversity Receiver
MCU: ESP32 PICO D4, dual SX1280(SX1281) (2) / twin SX1276 (915MHz/868MHz)
Telemetry power: 20dBm (2) / 17dBm (915MHz/868MHz)
Weight except for antenna: 1 (2) / 1 (915MHz/868MHz)
RF Frequency: 2 (ISM) / 915MHz FCC/868MHz EU
Antenna connector: IPEX MHF 1/U
Input voltage: +5V DC @ “+” pad
Receiver protocol: CRSF
PCB size: 22mm x 14mm
First True Diversity Receiver with TCXO
SuperD ELRS 2 Receiver is built-in a TCXO (temperature compensated crystal oscillator), which is shared through two RF chips for an excellent accurate clock supply The true range receiver including two RF chips and PA+LNA will generate a considerable amount of heat when operating With the effective TCXO, it will withstand severe temperatures and not using a worry of heat and cold, continuously outputting correct frequency for long-range flight
BETAFPV ExpressLRS Receivers
SuperD ELRS 2 Receiver has dual RF receiver chains with two antennas, guaranteeing longer and extra stable flying for FPV drones and RC airplanes Choosing an acceptable receiver to fly quadcopter or other RC units is important BETAFPV ExpressLRS Receivers adding ELRS Lite, Nano, Micro, and the latest SuperD, vastly fulfill pilots&; requirements for FPV flying
SuperD RX
Micro RX
Nano RX
Lite RX
Weight
1 (2), 1 (915/868MHz)
3 (RX only)
0 (RX only)
zero (Tower), 0 (Flat)
Antenna
IPEX MHF1 + T antenna
IPEX MHF1 + T antenna
IPEX MHF1 + T antenna
SMD ceramic antenna
MCU
ESP32-PICO-D4
ESP8285
ESP8285
ESP8285
RF Chip
Dual SX128X + Dual PA (2), Dual SX1276 (915/868MHz)
SX128X
SX128X + PA, SX1276 + PA
SX128X
Frequency
2 ISM, 915MHz (FCC), 868MHz (EU)
2 ISM
2 ISM, 915MHz (FCC), 868MHz (EU)
2 ISM
Telemetry Power
100mW
17mW
100mW
17mW
Serial Output Protocol
CRSF
PWM or CRSF
CRSF
CRSF
Model Type
FPV Drone, Fixed-wing plane
Fixed-wing aircraft, Helicopter, RC Cars, RC Boats
FPV Drone
Whoop Drone
Diagram
The SuperD receiver 2 diagram is proven below
The SuperD receiver 915MHz/868MHz version diagram is proven beneath
SuperD receiver RGB popularity indication is shown beneath
RGB Color
Status
Description
Rainbow
Fade effect
Power on
Green
Slow flash
WIFI upgrading mode
Red
Quick flash
No RF chip detected
Orange
Double flash
Binding mode
Orange
Triple flash
Connected, yet mismatched model-match configuration
Orange
Slow flash
Waiting for connection
Solid on
Connected and colour indicates packet price
The RGB mild coloration such as the packet price is shown within the figure below
2:
Note: F1000 and F500 are packet rates in FLRC mode, offering quicker modulation and decrease latency, but at the identical time having shorter reception distance than standard Lora mode This mode is great for racers
D500 and D250 are packet charges in DVDA (Deja Vu Diversity Aid) mode This mode works on the F1000 data packet rate of FLRC mode, offering greater link connection within the case of advanced interference by means of sending the same records packet a number of times D500 and D250 point out that a similar information packet is shipped two times and four occasions respectively
915MHz/868MHz:
Note: D50 is a unique mode of ELRS Team900 Under the 200Hz refresh charge of Lora mode, an analogous data packet is repeatedly despatched four times, and the receiving distance is reminiscent of 200Hz
100Hz Full is a mode that realizes 16-channel full-resolution output on the 200Hz refresh charge of Lora mode, and the receiving distance is similar to 200Hz
Configuration & Bind
ExpressLRS uses the Crossfire serial protocol (AKA CRSF protocol) to speak between the SuperD diversity receiver and the flight controller board Take the flight controller using the Betaflight firmware as an instance to introduce its wiring and port configuration
The connection between the SuperD diversity receiver and the flight controller is proven in the figure below
Connect the flight controller to the Betaflight Configurator for traditional configuration First, on the "Port" page, enable the flight controller serial port (take UART1 as an example) as "Serial Rx"
On the configuration page, set Receiver Mode to Serial (via UART) and Serial Receiver Provider to CRSF
The default firmware of the SuperD range receiver makes use of the ExpressLRS V3 protocol and has no preset binding phrase Therefore, the firmware edition of the transmitter module ought to be ExpressLRS V3 or later variations Both the receiver and transmitter module should have no binding word
Power on and off the receiver 3 times, every single step pausing 2 seconds to go into binding mode;
When the indicator starts rapid blink with orange twice, the receiving is at binding mode;
Enter the radio or transmitter module&;s binding mode to bind with the receiver; if the Indicator has grew to become solid, it signifies that the machine has been bound successfully
Note: After binding once, the receiver will remember the autosaved binding word and machine Further restarting of the machine can be sure mechanically with out the need for a rebinding task
The 2 default firmware is ELRS V3 If you need to bind with a handheld remote control or transmitter module, please improve it to V3 or above If you must flash the newest legitimate ELRS firmware for the SuperD receiver, please upgrade ELRS Configurator to V1 or above Select the target gadget "BETAFPV SuperD 2 RX"
The 915MHz/868MHz default firmware is ELRS V3 The authentic version has now not but been released It will be up to date synchronously with the ELRS V3 version Then you may clickthe recent ELRS Configurator Nightly to operate the objective device &;&;BETAFPV SuperD 900MHz RX&;&;
Note: Firmware for 915MHz/868MHz is currently self-compiled firmware
Package
1* SuperD 2 Diversity Receiver
2* 2 T Antenna
1* 4-Pin Header
1* 4-Pin Wire Harness
1* Instruction Manual
2* Heat Shrink Tubing
1* SuperD 915MHz/868MHz Diversity Receiver
2*915MHz/868MHzT Antenna
1* 4-Pin Header
1* 4-Pin Wire Harness
1* Instruction Manual
2* Heat Shrink Tubing