Colorlight i6 Receiving Card

Colorlight i6 Receive Card is  part of  LED Display Control System. Colorlight I6 Receive Card is a high-end and universal receiver card.

Description

colorlight logo

Colorlight i6 Receiving Card

Colorlight i6 Receiving Card

i6 Receive Card is  part of  LED Display Control System. Colorlight I6 Receive Card is a high-end and universal receiver card specially introduced in color flash, with a small size, with 63 * 33mm; it uses DDR2 SODIMM interface to easily integrate into the line board or unit panel of the LED display, implement the LED display module High integration, which greatly promotes the design of the LED display unit and the structure.

Features

  • Tiny size: 68*36mm, DDR2 SODIMM interface, easy for maintenance
  • Support 32 groups of RGB signal output
  • Loading capacity: 256*256 pixels
  • Low latency
  • Supports Auto-Calibration
  • Seam compensation
  • Support 3D display
  • Improved grayscale performance at low brightness
  • Smart panel marking good for maintenance
  • Auto-recognizes sequence of connected receiver cards
  • High-precision point-by-point calibration in the brightness and the chromaticity
  • Supports smart module to save calibration coefficients and other information on module
  • Temperature, humidity, power supply voltage monitoring on cabinet and fan rotating control
  • Cable Detection
  • Supports receiver card backup and power supply backup
  • Various freeform display designs like spherical display, creative display, etc.

Specifications

Control system parameters
Sending device All of Colorlight’s sending devices
Capacity Full-color: 256*256 Pixels
Cascade Control Area of the Largest Region 65536*65536 Pixels
Network Port Exchange Supported, arbitrary use
Gray Level Maximum 65536 Levels
Display module compatibility
Chip Supports Supports conventional chips, PWM chips, lighting chips and other mainstream chips.
Scan Mode Two scanning methods to support refresh rate multiplier
Scan Type Supports static sweep to 1/32 scan
Module Specifications Support Supports 4096 pixels within any row, any column
Cable Direction Supports route from left to right, from right to left, from top to bottom, from bottom to top.
Data Sets 32 RGB data sets
Data Folded Supports 1~8 any discount to improve refresh rate.
Data Exchange 32 sets of data any exchange
Module Snapshot Supports any pumping point
Compatible device and interface type
Communication Distance UTP cable≤140M

CAT6 cable≤170M

OPTIC FIBER transmission distance unrestricted

Compatible with Transmission Equipment Gigabit switch, fiber transceiver, optical switches.
Size 67.6*35.5mm
Input Voltage DC 3.3V~6V
Rated Current 0.5A
Rated Power 2.5W
Storage and Transport Temperature -50℃~125℃
Operating Temperature -25℃~75℃
Body Static Resistance 2KV
Weight 9.5g
Monitoring function (in conjunction with multi-function card)
Temperature Monitoring Cabinet temperature monitoring between -25℃ ~ 75℃

1 port for each card

Humidity Monitoring One port to monitor receiver card humidity range with 20% ~ 95%

1 port for each card

Bit Error Monitoring Monitoring the total number of data packets and error rate to check network quality
Supply Voltage Monitoring 5 ports for supply voltage monitoring
Full Color LCD Display Panel Supports full color LCD display panel
Pixel level calibration
Brightness Calibration Supported
Chromaticity Calibration Supported
Other features
Hot Backup Supports loop backup, double sender backup
Shaped Screen Supports various freeform display, spherical display, creative display, etc. through the data arbitrary offset
Program Backup Proprietary redundant firmware backup on card no matter how to use, upgrade, send parameters, continuous functionality

Hardware

  1. Interface
S/N Name Function Remarks
1 Signals indicator light The indicator light flashes rapidly (about 5-10times/second) to show that the data signal transmission is normal.
2 Power indicator light Red indicator light shows that the power supply is normal
3 Fixed hole Used to reinforce the receiving card to improve vibration resistance
4 DDR interface Connects with display’s HUB board or unit plate From the diagram above, the left side of the guide plate is first pin (Viewing from the front of card)
  1. Figure for size and hole position

i6 Receiving Card circuit board

  1. Definition of Pins
  2. Definition of Pins
Instructions Definition Pin No. Definition Instructions
Ground connection GND 1 2 D5V Power supply
GND 3 4 D5V
GND 5 6 D5V
GND 7 8 D5V
GND 9 10 D5V
GND 11 12 D5V
Do not connect NC 13 14 NC Do not connect
Network port 1 signal pin

Recommended use isolation transformer

eth1_p1 15 16 eth2_p1 Network port 2 signal pin

Recommended use isolation transformer

eth1_n1 17 18 eth2_n1
NC 19 20 NC
eth1_n2 21 22 eth2_n2
eth1_p2 23 24 eth2_p2
NC 25 26 NC
eth1_p3 27 28 eth2_p3
eth1_n3 29 30 eth2_n3
NC 31 32 NC
eth1_n4 33 34 eth2_n4
eth1_p4 35 36 eth2_p4
Do not connect NC 37 38 NC Do not connect
Ground connection GND 39 40 GND Ground connection
Indicator light LED_BTN_LED 41 42 A Display control:
1. ABCDE for row decoding signal;
2. LED_LAT for signal lock
3. LED_OE control LED display enable, like a switch, it is GCLK when the led display use PWM chip;
Temperature

monitoring

LED_TEMP 43 44 B
Humidity monitoring LED_HUM 45 46 C
Fan control LED_FAN 47 48 D
Blanking LED_CTRL 49 50 E
The first CLK LED_SCLK 51 52 LED_LAT
The second CLK LED_SCLK_S 53 54 LED_OE
GND 55 56 GND
RGB output of part A: A total of 8 groups of RGB, corresponding with LED_SCLK LED_R1 57 58 LED_R2 RGB output of part B: A total of 8 groups of RGB, corresponding with LED_SCLK_S
LED_G1 59 60 LED_G2
LED_B1 61 62 LED_B2
LED_R3 63 64 LED_R4
LED_G3 65 66 LED_G4
LED_B3 67 68 LED_B4
LED_R5 69 70 LED_R6
LED_G5 71 72 LED_G6
LED_B5 73 74 LED_B6
LED_R7 75 76 LED_R8
LED_G7 77 78 LED_G8
LED_B7 79 80 LED_B8
LED_R9 81 82 LED_R10
LED_G9 83 84 LED_G10
LED_B9 85 86 LED_B10
LED_R11 87 88 LED_R12
LED_G11 89 90 LED_G12
LED_B11 91 92 LED_B12
LED_R13 93 94 LED_R14
LED_G13 95 96 LED_G14
LED_B13 97 98 LED_B14
LED_R15 99 100 LED_R16
LED_G15 101 102 LED_G16
LED_B15 103 104 LED_B16
Ground connection GND 105 106 GND Ground connection
GND 107 108 GND
RGB output of part C : A total of 8 groups of RGB, corresponding with LED_SCLK

It can become part A’s check back and circuit signal detection of return

LED_R17 109 110 LED_R18 RGB output of part D : A total of 8 groups of RGB, corresponding with LED_SCLK_S

It can become part A’s check back and circuit signal detection of return

LED_G17 111 112 LED_G18
LED_B17 113 114 LED_B18
LED_R19 115 116 LED_R20
LED_G19 117 118 LED_G20
LED_B19 119 120 LED_B20
LED_R21 121 122 LED_R22
LED_G21 123 124 LED_G22
LED_B21 125 126 LED_B22
LED_R23 127 128 LED_R24
LED_G23 129 130 LED_G24
LED_B23 131 132 LED_B24
LED_R25 133 134 LED_R26
LED_G25 135 136 LED_G26
LED_B25 137 138 LED_B26
LED_R27 139 140 LED_R28
LED_G27 141 142 LED_G28
LED_B27 143 144 LED_B28
LED_R29 145 146 LED_R30
LED_G29 147 148 LED_G30
LED_B29 149 150 LED_B30
LED_R31 151 152 LED_R32
LED_G31 153 154 LED_G32
LED_B31 155 156 LED_B32
Ground connection GND 157 158 GND Ground connection
Save correction coefficients in module LED_SPI_SCK 159 160 LED_SPI_SDI Save correction coefficients in module
LED_SPI_CS1 161 162 LED_SPI_CS2
LED_SPI_SDO1 163 164 LED_SPI_SDO2
LED_SPI_CS3 165 166 LED_SPI_CS4
LED_SPI_SDO3 167 168 LED_SPI_SDO4
LED_SPI_CS5 169 170 LED_SPI_CS6
LED_SPI_SDO5 171 172 LED_SPI_SDO6
LED_SPI_CS7 173 174 LED_SPI_CS8
LED_SPI_SDO7 175 176 LED_SPI_SDO8
Extended functional interface for customized features LED_M1 177 178 LCD_CTRL1 The interface to connect LCD display
LED_M2 179 180 LCD_CTRL2
LED_M3 181 182 LCD_CTRL3
LED_M4 183 184 LCD_CTRL4
LED_M5 185 186 LCD_CTRL5
LED_M6 187 188 RCV_BK1 Vacant signal for double backup receiving card
LED_M7 189 190 RCV_BK2
Do not connect NC 191 192 NC Do not connect
NC 193 194 NC
NC 195 196 NC
NC 197 198 NC
Ground connection GND 199 200 GND Ground connection