Swift800 Pro Introduction

Swift800 Pro User Manual


The Apple version does not currently support the new version of the APP. We are now already doing our best to make it. And we are very sorry for the inconvenience.



Your content goes here. Edit or remove this text inline or in the module Content settings. You can also style every aspect of this content in the module Design settings and even apply custom CSS to this text in the module Advanced settings.

How many meters is the farthest the Swift800 can transmit in the open area? Is it capable of transmitting up to 200 meters at a distance of about 0.5 meters from the ground?

Answer: 1. In an open and unobstructed environment, the Swift800 can transmit up to 200-250 meters. Besides, the antennas of the transmitter and receiver need to be adjusted to a 90° angle; and they should be set up at an altitude of 1.5-2 m from the ground. 2. The default bit rate is 15M. If the transmission distance of 200m is reached closer to the ground, the bit rate needs to be set to 4-6M.

When using 2 sets of Swift800 products at the same time, there is a problem that the screen often spends no signal.

Answer: 1. When two sets of receivers are placed together, it is recommended to set one at CH5 and the other one set at CH9; 2. The two sets of receivers are spaced more than 2 meters apart; 3. The transmitter is set up at the head or handle of the SLR or camera, about 1.5-2 meters from the ground, the antenna is at a 90° angle, and the photographer’s body does not cover the antenna; 4. Set up the receiver on a tripod at a height of 2 meters from the ground with the antenna at a 90° angle.

Swift800 has no sound output.

Answer: Check to make sure the transmitter has switched to external audio mode. If so, please switch back to the internal audio mode.

Mosaic, Katon appear during use

Answer: 1. The transmitter and receiver should be set as high as possible, to more than 1.5-2 meters; 2. The antenna should be fan-shaped, with the antenna facing forward for best transmission; 3. The receiver should be moved closer to the transmitter; 4. The obstruction between the receiver and transmitter should be reduced.