ZHCSQG6A March 2022 – May 2022 LP5891
PRODUCTION DATA
请参考 PDF 数据表获取器件具体的封装图。
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|
VCC | Device supply voltage | 2.5 | 5.5 | V | ||
VUVR | Undervoltage restart | VCC rising | 2.3 | V | ||
VUVF | Undervoltage shutdown | VCC falling | 2.0 | V | ||
VUV(HYS) | Undervoltage shutdown hysteresis | 0.1 | V | |||
ICC | Device supply current | SCLK/SIN = 10 MHz, MPSM_EN=1bit, Matrix PSM enable, internal GCLK off, GSn = 0000h, BC = 2h, CCR/G/B = 63h, PS_EN= 1h, VOUTn = floating, RIREF = 7.8 kΩ (In intelligent power save mode) | 0.9 | mA | ||
SCLK/SIN = 10 MHz, Standby enable, internal GCLK off, GSn = 0000h, BC = 2h, CCR/G/B = 63h, PS_EN= 1h, VOUTn = floating, RIREF = 7.8 kΩ (In intelligent power save mode) | 0.9 | mA | ||||
SCLK/SIN = 10 MHz, PSP_MOD=1bit, internal GCLK=50MHz, GSn = 0000h, BC = 2h, CCR/G/B = 63h, PS_EN= 1h, VOUTn = floating, RIREF = 7.8 kΩ (In power save mode) | 3.6 | mA | ||||
SCLK = 10 MHz, internal GCLK = 50 MHz, GSn = 1FFFh, BC = 2h, CCR/G/B = 63h,VOUTn = floating, RIREF = 7.8 kΩ, ICH = 2 mA | 3.6 | mA | ||||
SCLK = 10 MHz, internal GCLK = 100 MHz, GSn = 1FFFh, BC = 2h, CCR/G/B = 63h, VOUTn = floating, RIREF = 7.8 kΩ, ICH = 2 mA | 4.9 | mA | ||||
VR/G/B | LED supply voltage | 2.5 | 5.5 | V | ||
VIH | High level input voltage (SCLK, SIN) | 0.7 × VCC | V | |||
VIL | Low level input voltage (SCLK, SIN) | 0.3 × VCC | V | |||
VOH | High level output voltage (SOUT) | IOH = –2 mA at SOUT | VCC-0.4 | VCC | V | |
VOL | Low level output voltage (SOUT) | IOL = 2 mA at SOUT | 0.4 | V | ||
ILOGIC | Logic pin current (SCLK, SIN) | SCLK/SIN = VCC or GND | -1 | 1 | uA | |
RDS(ON) | Scan switches' on-state resistance (LINE0 to LINE15) | VCC = 2.8 V, TA= 25°C | 190 | mΩ | ||
VIREF | Reference voltage | SCLK/SIN = GND, internal GCLK= 0MHz, GSn = 0000h, BC = 2h, CCR/G/B = 63h, VOUTn = floating, RIREF = 7.8 kΩ | 0.8 | V | ||
VKNEE | Channel knee voltage (R0-R15 / G0-G15 / B0-B15) | VLEDR/G/B ≥ 2.8 V, all channel outputs on, output current at 1 mA | 0.25 | V | ||
VLEDR/G/B ≥ 2.8 V, all channel outputs on, output current at 5 mA | 0.26 | V | ||||
VLEDR/G/B ≥ 2.8 V, all channel outputs on, output current at 10 mA | 0.3 | V | ||||
VLEDR/G/B ≥ 2.8 V, IMAX = 1b, all channel outputs on, output current at 15 mA | 0.37 | V | ||||
VLEDR/G/B ≥ 2.8 V, IMAX=1b, all channel outputs on, output current at 20 mA | 0.41 | V | ||||
ICH(LKG) | Channel leakage current (R0-R15 / G0-G15 / B0-B15) | Channel voltage at 0 V | 1 | uA | ||
ΔIERR(CC) | Constant-current channel to channel deviation (R0-R15 / G0-G15 / B0-B15)(1) | All CHn = on, BC = 00h, CC = 31h, VOUTn = (VLED-1)V, RIREF = 19.05 kΩ (ICH = 0.2-mA target), TA = 25°C, includes the VIREF tolerance, at same color grouped outputs of R0-R15 / G0-G15 / B0-B15 | ±1 | ±2.5 | % | |
All CHn = on, BC = 00h, CC = 7Dh, VOUTn = (VLED-1)V, RIREF = 19.05 kΩ (ICH = 0.5-mA target), TA = 25°C, includes the VIREF tolerance, at same color grouped outputs of R0-R15 / G0-G15 / B0-B15 | ±0.5 | ±1.5 | % | |||
All CHn = on, BC = 00h, CC = FBh, VOUTn = (VLED-1)V, RIREF = 19.05 kΩ (ICH = 1-mA target), TA = 25°C, includes the VIREF tolerance, at same color grouped outputs of R0-R15 / G0-G15 / B0-B15 | ±0.5 | ±1.5 | % | |||
All CHn = on, BC = 2h, CC = FBh, VOUTn = (VLED-1)V, RIREF = 7.8 kΩ (ICH = 5-mA target), TA = 25°C, includes the VIREF tolerance, at same color grouped outputs of R0-R15 / G0-G15 / B0-B15 | ±0.5 | ±2 | % | |||
All CHn = on, BC = 6h, CC = A7h, VOUTn = (VLED-1)V, RIREF = 7.8 kΩ (ICH = 10-mA target), TA = 25°C, includes the VIREF tolerance, at same color grouped outputs of R0-R15 / G0-G15 / B0-B15 | ±0.5 | ±2 | % | |||
All CHn = on, BC = 7h, CC = FBh, IMAX=1b, VOUTn = (VLED-1)V, RIREF = 6.8 kΩ (ICH = 20-mA target), TA = 25°C, includes the VIREF tolerance, at same color grouped outputs of R0-R15 / G0-G15 / B0-B15 | ±0.5 | ±2.5 | % | |||
ΔIERR(DD) | Constant-current device to device deviation (R0-R15 / G0-G15 / B0-B15)(2) | All CHn = on, BC = 00h, CC = 31h, VOUTn = (VLED-1)V, RIREF = 19.05 kΩ (ICH = 0.2-mA target), TA = 25°C, includes the VIREF tolerance, at same color grouped outputs of R0-R15 / G0-G15 / B0-B15 | ±1 | ±2.5 | % | |
All CHn = on, BC = 00h, CC = 7Dh, VOUTn = (VLED-1)V, RIREF = 19.05 kΩ (ICH = 0.5-mA target), TA = 25°C, includes the VIREF tolerance, at same color grouped outputs of R0-R15 / G0-G15 / B0-B15 | ±0.5 | ±1.5 | % | |||
All CHn = on, BC = 00h, CC = FBh, VOUTn = (VLED-1)V, RIREF = 19.05 kΩ (ICH = 1-mA target), TA = 25°C, includes the VIREF tolerance, at same color grouped outputs of R0-R15 / G0-G15 / B0-B15 | ±0.5 | ±1 | % | |||
All CHn = on, BC = 2h, CC = FBh, VOUTn = (VLED-1)V, RIREF = 7.8 kΩ (ICH = 5-mA target), TA = 25°C, includes the VIREF tolerance, at same color grouped outputs of R0-R15 / G0-G15 / B0-B15 | ±0.5 | ±1.5 | % | |||
All CHn = on, BC = 6h, CC = A7h, VOUTn = (VLED-1)V, RIREF = 7.8 kΩ (ICH = 10-mA target), TA = 25°C, includes the VIREF tolerance, at same color grouped outputs of R0-R15 / G0-G15 / B0-B15 | ±0.5 | ±2 | % | |||
All CHn = on, BC = 7h, CC = FBh, IMAX=1b, VOUTn = (VLED-1)V, RIREF = 6.8 kΩ (ICH = 20-mA target), TA = 25°C, includes the VIREF tolerance, at same color grouped outputs of R0-R15 / G0-G15 / B0-B15 | ±0.5 | ±2 | % | |||
ΔIREG(LINE) | Line regulation (R0-R15 / G0-G15 / B0-B15)(3) | VLED = 2.5 to 5.5V, All CHn = on, VOUTn = (VLED-1)V, at same color grouped outputs of R0-R15 / G0-G15 / B0-B15 | ±1 | %/V | ||
ΔIREG(LOAD) | Load regulation (R0-R15 / G0-G15 / B0-B15)(4) | VOUTn = (VLED-1)V to (VLED-3)V, VR=VG/B=VLED=3.8V, All CHn = on, at same color grouped outputs of R0-R15 / G0-G15 / B0-B15 | ±1 | %/V | ||
TTSD | Thermal shutdown threshold | 170 | °C | |||
THYS | Thermal shutdown hysteresis | 15 | °C |