HL1606 is a LED driver IC with SPI controlled. This post tells readers HL1606 Features, HL1606 Pin definition, HL1606 Data format, build-in module description, HL1606 electric parameter, HL1606 Timing diagram, Impression Drawing & Data Format, and HL1606 application.
HL1606 is a LED driver IC with SPI controlled. This post tells readers HL1606 Features, HL1606 Pin definition, HL1606 Data format, build-in module description, HL1606 electric parameter, HL1606 Timing diagram, Impression Drawing & Data Format, and HL1606 application.
HL1606 DESCRIPTION
HL1606 is a LED driver IC with SPI controlled. We can get “complex mode changes” by fewer data.
HL1606 FEATURES
- NMOS output
- SPI controlled,plus synchronization speed control port: S-I
- PWM output,frequency:500Hz
- With a internal “change model” unit,only data calls, reducing the amount of data.
- Speed control bit,can speed up “changes in a pixel” rate of 2 times.
- Latch enable bit,concatenated string at a point can be read or not read data.
- Built-6 road, drive two pixels˄three-output get a pixel˅
HL1606 Pin definition
| No. | Name | Description | No. | Name | Description |
| 1 | S-I | Sync / speed clock input | 7 | D-O | Data buffer output |
| 2 | D-I | Data input | 8 | S-O | Sync / speed clock buffer output |
| 3 | CK-I | Clock input | 9 | GND | GND |
| 4 | L-I | Latch signal input | 10~12 | B3~B1 | 3 way drive output |
| 5 | L-O | Latch signal buffer output | 13~15 | A3~A1 | 3 way drive output |
| 6 | CK-O | Clock buffer output | 16 | VDD | VDD |
HL1606 Data format
| D1 | D2 | D3 | D4 | D5 | D6 | D7 | D8 | D9 | D10 | D11 | D12 | D13 | D14 | D15 | D16 | HIGH |
| A1~A3 LED Control data-1 | B1~B3 LED Control date-2 | |||||||||||||||
Data format of A1-A3 LED Control data-1(B1-B3 LED Control data-2 can refer it)
| D1˄D9˅ | D2˄D10˅ | D3˄D11˅ | D4˄D12˅ | D5˄D13˅ | D6˄D14˅ | D7˄D15˅ | D8˄D16˅ |
| A1˄B1˅Control bit | A2˄B2˅Control bit | A3˄B3˅Control bit | Control bit of speed | Latch enable bit | |||
| D2=0ǃD1=0 A1 Light out | D4=0ǃD3=0 A2 Light out | D6=0ǃD5=0 A3 Light out | D7=0 Default rate | D8=0 Can not latch | |||
| D2=0ǃD1=1 | A1 Light on | D4=0ǃD3=1 A2 Light on | D6=0ǃD5=1 | A3 Light on | |||
| D2=1ǃD1=0 | A1 fadein | D4=1ǃD3=0 | A2 fadein | D6=1ǃD5=0 | A3 fadein | D7=1 2 times rate | D8=1 Allowed to latch |
| D2=1ǃD1=1 A1 fadeout | D4=1ǃD3=1 A2 fadeout | D6=1ǃD5=1 | A3 fadeout | ||||
Description of HL1606 build-in module
Fadein module˖
When a data bit is 10(D2D1 or D4D3 or D6D5) and the latch is enable, corresponding output state of LED is fadein. After get the brightest state, it will keep the state, until the new data input by effective latch.
Fadeout module˖
When a data bit is 11(D2D1 or D4D3 or D6D5) and the latch is enable, corresponding output state of LED is fadeout. After the lights out, it will keep the state, until the new data input by effective latch.
T Cycle time of change–T˖
When D7=0,T=Tzc×128 set ,series is 128. For example: When Zc=50Hz,T=2.56s,if every latch
is effective, fadein/fadeout module will resume the change.
Electric parameter˄VDD=5V,temperature=25℃˅
| ITEM | SYMBOL | TEST CONDITIONS | MIN. | TYP. | MAX. | UNIT |
| Threshold voltage of output tube | VOL | IDS≤1 A,VDD=5V | – | – | 6 | V |
| Operating voltage | VCC | Stable and functioning properly | 3 | 5 | 5.5 | V |
| Operating current | ICC | VDD=5V,oscillations, no load | – | 200 | 400 | A |
| DATA input, changes of high level and low level | VIN | Stable and functioning properly | 3.8 | – | 6 | V |
| Output current of drive | IOL | VDD=5V,VDS=0.8V | – | 30 | – | mA |
| Output current of buffer | IOH | VDD=5V,VDS=-0.8V | – | 5 | – | mA |
| IOL | VDD=5V,VDS=0.8V | – | 10 | – | mA | |
| temperature | Temp | 0 | 25 | 70 | ℃ | |
| Work frequency of terminal-S | Fs | VDD=5V | 200 | Hz |
HL1606 Timing diagram(entry data from high level)
t0≥300ns ˗t1≥1 s˗T≥250N(ns),N: the number of cascade˗t2≈100nsDŽ
Impression Drawing & Data Format
Monochrome , one-way, gradually run
Description: There is a “gradual change” mode in HL1606, so D_I only need one set of data”10110000”, then input ”0” to the end is okay. Clock signal has been sent to CK_I, sent a “1” to L_I after 8 clock signal. Change once the signal of S_I, the output decline in a series. A clock cycle in S_I,. output is keep in 512Hz refresh frequency, to maintain the same level(series) of output duty cycle refresh. If no data sent to S_I, output will remain the same duty cycle refresh.
Colorful fluttering
Description: There is a “gradual change” mode in HL1606, so D_I only need one set of data”10001011”, then input ”0” to the end is okay(red to green gradually). Clock signal has been sent to CK_I, sent a “1” to L_I after 8 clock signal. Change once the signal of S_I, the output series change once. A clock cycle in S_I,. output is keep in 512Hz refresh frequency, to maintain the same level(series) of output duty cycle refresh. If no data sent to S_I, output will remain the same duty cycle refresh. Just finished in a color change, change the data of D-I.
Full-color fluttering
Description: There is a “gradual change” mode in HL1606, so D_I only need one set of data”10001001”, then input ”0” to the end is okay(red to yellow gradually). Clock signal has been sent to CK_I, sent a “1” to L_I after 8 clock signal. Change once the signal of S_I, the output series change once. A clock cycle in S_I,. output is keep in 512Hz refresh frequency, to maintain the same level(series) of output duty cycle refresh. If no data sent to S_I, output will remain the same duty cycle refresh. Just finished in a color change, change the data of D-I.
HL1606 Application
Application Notes
- Picture(1),1st connection method: triode will not connect to output of IC, output current reach 30Ma,output can connect to two-ways, ensure that the output voltage must be less than 6V.
- Picture(2), 2nd connection method: triode connect to output of IC. Because the NPN-type transistor at the base took on the extreme pull-up resistor, the “output duty cycle of IC” and the” LED brightness” is inversely proportional to. When the IC doesn’t output, the transistor fully conducting, LED full-bright.
- Picture (3), internal structure of the “output port of IC”. The output is NMOS open-drain output.
- Picture (4), application drawing of cascade. Connection method of output termination (U1-UN) is same. Ceramic capacitor ”※” should be as close as possible to the chip, and work before the power input to the IC. Resistance “#” is adjustable, adjust the brightness of LED by adjust the value of resistance, and then we can get different blending effect. When the IC work, first into the highest, then into the low, the output is after the drive of “chip control signal”, this output can be used as the input signal of back-end circuit.
HL1606 LED products
Download:HL1606 Datasheet PDF
HL1606 LED Strip
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