9gram 1S Pro Power Combo
BUNDLE AND SAVE! Buzzard Models' power combos offer a true plug and play system matched to Buzzard Models airframes. We've taken the guess-work out of finding the perfect balance of performance, quality, and prices.
The 9gram 1S PRO Power Combo features the newest and best in technology for micro power systems and integrated receiver-ESC combos. It is designed specifically to match Buzzard Models airframes such as the Omicron, and also works well with many rubber powered conversions. It features a powerful 9gram motor with prop saver, prop, combination 5 channel receiver and 5 amp brushless ESC, and a variety of digital servos. It is designed to run on 160-300mAh 1S Lipo batteries with your choice of power connectors. It is a true plug and play system, no soldering or installing plugs.
Available power connectors: We currently offer two power connection options, the eflite compatible Molex Picoblade 1.25mm plug, or the JST-PH 2.0mm pitch high current plug. Other connectors such as JST-RCY are available upon request. For this amount of current draw through the Molex 1.25, we assemble special power leads with 24ga silicone wire soldered to a 2P Molex vertical header and heat shrink the solder joint, this gives us close to the performance of the JST-PH.
9gram 1S PRO Power Combo Includes:
Happymodel EX1404-4800kv 8.7g Brushless Outrunner Motor 1S
Prop saver and two bands
Two 3D printed prop shaft adapters
6x3 Slow fly prop with 5mm bore GWS style 6030 prop orange
Ma-RX42E V3.0 5 channel auto-binding receiver with telemetry, available in many protocols.
Integrated 5 amp brushless ESC running BlHeli
Standard servo pack:
1ea. BM15318 2.2g Ultra-Micro Digital Servo 1.00mm JST
2ea. BM5320S 1.7g Ultra-Micro Digital Servo 1.00mm JST
1s 180-300mah Lipo JST-PH 2.0 connector
90 grams thrust, 3.50 amps, 12.3 watts, Orange Gemfan 6030 prop tested at 3.5volt
100 grams thrust, 4.00 amps, 15.8 watts, Orange Gemfan 6030 prop tested at 3.9volts
The receiver will enter the binding mode automatically after power is applied and it doesn’t receive a transmitter signal for 15 seconds. This is indicated by the slow flashing blue LED light changing to a rapid flash. The receiver is now in the binding mode, complete the binding operation according to your transmitter’s binding instructions.
The TELEM function monitors battery voltage, receiver working voltage, signal strength, as well as working temperature in real time.
*NOTE: The effective control range of the TELEM function depends on the transmitter, it is quite often that the working range of the receiver is far more than TELEM function effective range.
SR3X is a 3 axis flight stabilization system specially for fixed wing model airplanes. SR3X is controllable from the transmitter and has three working modes: off, low sensitivity, and high sensitivity. The default is for the mode selection to occur on channel 5. The stabilization mode is indicated on the receiver by a blue LED with the following indications: off, on steady (stabilization medium), flashing (stabilization high). If your transmitter only has a two position switch, you will have to allocate CH5 to a three position switch to use all three settings. Using the Crossover-RX USB Configuration Tool, you can select many additional options for the initial setup including horizontal or vertical mounting, differential thrust, aircraft configuration (flying wing, v-tail, etc.), and also mode selection channel. Also adjustable from the USB Configuration tool is the sensitivity of the SR3X stabilization in all modes and all axis.
CrossOver-RX Configuration Tool:
CrossOver-RX Configuration Tool is a firmware update tool for Crossover-RX products. With the USB adapter and the software found below, you can access many programming options and available firmware updates on various Crossover-RX products. Available with either a 3 or 4-wire M-BUS connection wire.
Unzip this file and install it on your PC. Open the software and with the receiver not plugged into a battery, plug in a MX-PG02 USB Programming Interface Module (UPIM) into the MBUS servo port and the USB end into the PC. Look at the diagram in the pictures to find which servo port is the MBUS port, other ports will not work. Look for USB-SERIAL CH30 in the port description box and select it, then press the connect button.
*Supported OS: WIN7-WIN11 X64 You may need to download the VC Runtime to run this application.