Description
H801TC is an LED controller that is specially designed for controlling various ICs with 3 channels via an Ethernet connection and is compatible with the DMX 512 protocol.
Features:
(1). The H801TC is a master controller that works offline and reads data from an SD card to control multiple slave controllers.
(2). Two ports can control a maximum of 255 slave controllers and drive 150,000 pixels.
(3). H801TC can be connected to the DMX console and occupies 3 channels, so you can switch files and adjust speed and brightness with the DMX console.
(4). Slave controllers are H801RA, H802RA, and H801RC.
(5). Data is transmitted using the Ethernet protocol; the nominal transmission distance is 100 meters.
(6). SD cards support FAT32 and FAT16 formats, have a maximum capacity of 64 GB bytes, and store up to 64 DAT files.
Specification
- Input voltage: AC110-240V
- Power consumption: 3W
- Loading points: 150,000 points
- Number of loaded sub-controllers: 255
- Working temperature: -20°C–75°C
- Overall dimensions: L270 x W150 x H45
- Weight: 1.8KGS
Packing list
- 1pcs* LED Controller
- 1pcs* SD Card
- 1pcs*
Support chips
LPD6803, LPD8806, LPD6812, LPD6813, LPD1882, LPD1889, LPD1883, LPD1886, DMX512, HDMX, APA102, P9813, LD1510, LD1512, LD1530,LD1532, UCS6909, UCS6912, UCS1903, UCS1909, UCS1912, WS2801, WS2803, WS2811, WS2812, DZ2809, SM16716, TLS3001, TLS3002, TM1812,TM1809, TM1804, TM1803, TM1914, TM1926, TM1829, TM1906, INK1003, BS0825, BS0815, BS0901, LY6620, DM412, DM413, DM114, DM115, DM13C, DM134, DM135, DM136, 74HC595, 6B595, MBI6023, MBI6024, MBI5001, MBI5168, MBI5016, MBI5026, MBI5027, TB62726, TB62706,ST2221A, ST2221C, XLT5026, ZQL9712, ZQL9712HV, etc.
Note:
H801TC can support more than the chips listed above (some chips have the same sequence diagram; for example, UCS512, WS2821, and DMX512 have the same protocol, and H801TC supports them all).
Controller product knowledge Q&A
Q 1
How are the main control and sub-control connected? Is there any requirement for the distance between the network cables?
The main control and sub-control are connected by a super-category 5 pure copper network cable, and the distance is within 80 meters, and the sub-control is added if it exceeds 80 meters. If the controller is more than 100 meters away, optical fiber can be used.
Q 2
What are the requirements for network cables for main control and sub-control?
The network cable must be a Category 5e pure copper cable with a length of 100 meters and a resistance of 30 ohms.
Q 3
When encountering a conventional IC point light source, what is the maximum distance between points?
This depends on the specific driving capabilities of the chip. The distance provided by the chip manufacturer shall prevail, and it is related to the on-site environment and wires. The distance from the controller to the last light is within 100 meters of the TTL signal, preferably within 200 meters of DMX512.
Q 4
Can the main and sub-controllers encode 512 lamps?
Yes, it can.
Q 5
Can the module and single-color light string be controlled?
Our controller can control lamps with chips (with IC).
Q 6
How many meters of magic light strips can the controller carry?
The length of the light strip that the controller-group signal (one port) can carry depends on the specifications of the light strip (pixel points). For example, an eight-port controller can carry 1024 points per port. If it is 60 meters and 20 segments of light strip, in theory, one port can carry 1024/20, which is approximately equal to 50 meters of light strip. However, in practical applications, the number of loading points on the controller is also related to the driver of the chip. The more loading points there are, the lower the refresh frequency. Therefore, it is recommended that each port not be fully loaded, and it is more appropriate to carry it about 30 meters.
Reviews
There are no reviews yet.