ZHCSE87A October 2015 – September 2023 DLPA3000
PRODUCTION DATA
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|
SUPPLIES | ||||||
INPUT VOLTAGE | ||||||
VIN | Input voltage range | VINA – pin | 6(5) | 12 | 20 | V |
VLOW_BAT | Low battery warning threshold | VINA falling (through a 5-bit trim function) | 3.9 | 18.4 | V | |
Hysteresis | VINA rising | 90 | mV | |||
VUVLO(6) | UVLO threshold | VINA falling (through a 5-bit trim function) | 3.9 | 6.22 | 18.4 | V |
Hysteresis | VINA rising | 90 | mV | |||
VSTARTUP | Startup voltage | DMD_VBIAS, DMD_VOFFSET, DMD_VRESET loaded with 10 mA | 6 | V | ||
INPUT CURRENT | ||||||
IIDLE | Idle current | IDLE mode, all VIN pins combined | 15 | µA | ||
ISTD | Standby current | STANDBY mode, analog, internal supplies and LDOs enabled, DMD, ILLUMINATION and BUCK CONVERTERS disabled | 3.7 | mA | ||
IQ_DMD | Quiescent current (DMD) | Quiescent current DMD block (in addition to ISTD), VINA + DRST_VIN | 0.49 | mA | ||
IQ_ILLUM | Quiescent current (ILLUM) | Quiescent current ILLUM block (in addition to ISTD) in 6 A LED configuration, internal FETs, V_openloop= 3 V (, VINA + ILLUM_VIN + ILLUM_A_VIN + ILLUM_B_VIN | 21 | mA | ||
IQ_BUCK | Quiescent
current (per BUCK) |
Quiescent current per BUCK converter (in addition to ISTD), Normal mode, VINA + PWR_VIN + PWR1,2,5,6,7_VIN, PWR1,2,5,6,7_VOUT = 1 V | 4.3 | mA | ||
Quiescent current per BUCK converter (in addition to ISTD), Normal mode, VINA + PWR_VIN + PWR1,2,5,6,7_VIN, PWR1,2,5,6,7_VOUT = 5 V | 15 | |||||
Quiescent current per BUCK converter (in addition to ISTD), Cycle-skipping mode, VINA + PWR_VIN + PWR1,2,5,6,7_VIN = 1 V | 0.41 | |||||
Quiescent current per BUCK converter (in addition to ISTD), Cycle-skipping mode, VINA + PWR_VIN + PWR1,2,5,6,7_VIN = 5 V | 0.46 | |||||
IQ_TOTAL | Quiescent current (Total) | Typical Application: 6 A LED, Internal FETs, DMD. ACTIVE mode, all VIN pins combined, DMD, ILLUMINATION and PWR1,2 enabled, PWR3,4,5,6,7 disabled | 38 | mA | ||
INTERNAL SUPPLIES | ||||||
VSUP_5P0V | Internal supply, analog | 5 | V | |||
VSUP_2P5V | Internal supply, logic | 2.5 | V | |||
DMD—LDO DMD | ||||||
VDRST_VIN | 6 | 12 | 20 | V | ||
VDRST_5P5V | 5.5 | V | ||||
PGOOD | Power good DRST_5P5V | Rising | 80% | |||
Falling | 60% | |||||
OVP | Overvoltage protection DRST_5P5V | 7.2 | V | |||
Regulator dropout | At 25 mA, VDRST_VIN = 5.5 V | 56 | mV | |||
Regulator current limit(1) | 300 | 340 | 400 | mA | ||
DMD—REGULATOR | ||||||
RDS(ON) | MOSFET ON-resistance | Switch A (from DRST_5P5V to DRST_HS_IND) | 920 | mΩ | ||
Switch B (from DRST_LS_IND to DRST_PGND) | 450 | |||||
VFW | Forward voltage drop | Switch C (from DRST_LS_IND to DRST_VBIAS(1)), VDRST_LS_IND = 2 V, IF = 100 mA | 1.21 | V | ||
Switch D (from DRST_LS_IND to DRST_VOFFSET(1)), VDRST_LS_IND = 2 V, IF = 100 mA | 1.22 | |||||
tDIS | Rail Discharge time | COUT= 1 µF | 40 | µs | ||
tPG | Power-good timeout | Not tested in production | 15 | ms | ||
ILIMIT | Switch current limit | 610 | mA | |||
VOFFSET REGULATOR | ||||||
VOFFSET | Output voltage | 10 | V | |||
DC output voltage accuracy | IOUT= 10 mA | –0.3 | 0.3 | V | ||
DC Load regulation | IOUT= 0 mA to 10 mA | –10 | V/A | |||
DC Line regulation | IOUT= 10 mA, DRST_VIN = 8 V to 20 V | –5 | mV/V | |||
VRIPPLE | Output ripple | IOUT= 10 mA, COUT= 1 µF | 200 | mVpp | ||
IOUT | Output current | 0.1 | 10 | mA | ||
PGOOD | Power-good threshold (fraction of nominal output voltage) | VOFFSET rising | 86% | |||
VOFFSET falling | 66% | |||||
C | Output capacitor | Recommended value(4) (use same value as output capacitor on VRESET) | 1 | µF | ||
tDISCHARGE <40 µs at VIN = 8 V | 1 | |||||
VBIAS REGULATOR | ||||||
VBIAS | Output voltage | 18 | V | |||
DC output voltage accuracy | IOUT= 10 mA | –0.3 | 0.3 | V | ||
DC Load regulation | IOUT= 0 mA to 10 mA | –18 | V/A | |||
DC Line regulation | IOUT = 10 mA, DRST_VIN = 8 V to 20 V | –3 | mV/V | |||
VRIPPLE | Output ripple | IOUT= 10 mA, COUT = 470 nF | 200 | mVpp | ||
IOUT | Output current | 0.1 | 10 | mA | ||
PGOOD | Power-good threshold (fraction of nominal output voltage) | VBIAS rising | 86% | |||
VBIAS falling | 66% | |||||
C | Output capacitor | Recommended value (use same or smaller value as output capacitors VOFFSET / VRESET) | 470 | nF | ||
tDISCHARGE < 40 µs at VIN = 8 V | 470 | |||||
VRESET REGULATOR | ||||||
VRST | Output voltage | –14 | V | |||
DC output voltage accuracy | IOUT= 10 mA | –0.3 | 0.3 | V | ||
DC Load regulation | IOUT= 0 mA to 10 mA | –4 | V/A | |||
DC Line regulation | IOUT = 10 mA, DRST_VIN = 8 V to 20 V | –2 | mV/V | |||
VRIPPLE | Output ripple | IOUT= 10 mA, COUT= 1 µF | 120 | mVpp | ||
IOUT | Output current | 0.1 | 10 | mA | ||
PGOOD | Power-good threshold | 90% | ||||
C | Output capacitor | Recommended value(4) (use same value as output capacitor on VOFFSET) | 1 | µF | ||
tDISCHARGE <40 µs at VIN = 8 V | 1 | |||||
DMD—BUCK CONVERTERS | ||||||
OUTPUT VOLTAGE | ||||||
VPWR_1_VOUT | Output Voltage | 1.1 | V | |||
VPWR_2_VOUT | Output Voltage | 1.8 | V | |||
DC output voltage accuracy | IOUT= 0 mA | –3% | 3% | |||
MOSFET | ||||||
RON,H | High side switch resistance | 25°C, VPWR_1,2_Boost – VPWR1,2_SWITCH = 5.5 V | 150 | mΩ | ||
RON,L | Low side switch resistance(1) | 25°C | 85 | mΩ | ||
LOAD CURRENT | ||||||
Allowed load current(2) | 3 | A | ||||
IOCL | Current limit(1) | LOUT= 3.3 μH | 3.2 | 3.6 | 4.2 | A |
ON-TIME TIMER CONTROL | ||||||
tON | On time | VIN = 12 V, VO = 5 V | 120 | ns | ||
tOFF(MIN) | Minimum off time(1) | TA = 25°C, VFB = 0 V | 270 | ns | ||
START-UP | ||||||
Soft start | 1 | 2.5 | 4 | ms | ||
PGOOD | ||||||
RatioOV | Overvoltage protection | 120% | ||||
RatioPG | Relative power good level | Low to high | 72% | |||
ILLUMINATION—LDO ILLUM | ||||||
VILLUM_VIN | 6 | 12 | 20 | V | ||
VILLUM_5P5V | 5.5 | V | ||||
PGOOD | Power good ILLUM_5P5V | Rising | 80% | |||
Falling | 60% | |||||
OVP | Overvoltage protection ILLUM_5P5V | 7.2 | V | |||
Regulator dropout | At 25 mA, VILLUM_VIN = 5.5 V | 53 | mV | |||
Regulator current limit(1) | 300 | 340 | 400 | mA | ||
ILLUMINATION—DRIVER A,B | ||||||
VILLUM_A,B_IN | Input supply voltage range | 6 | 12 | 20 | V | |
PWM | ||||||
ƒSW | Oscillator frequency | 3 V < VIN < 20 V | 600 | kHz | ||
tDEAD | Output driver dead time | HDRV off to LDRV on, TRDLY = 0 | 28 | ns | ||
HDRV off to LDRV on, TRDLY = 1 | 40 | |||||
LDRV off to HDRV on, TRDLY = 0 | 35 | |||||
MAXIMUM CURRENTS | ||||||
HSD OC | High-side drive over current | Internal switches,
IDS threshold, single buck (6 A use case) |
9.5 | A | ||
LSD MC | Low-side drive maximum allowed current | Both directions In or Out.
Internal switches, IDS threshold, single buck (6 A use case) |
9.5 | A | ||
BOOT DIODE | ||||||
VDFWD | Bootstrap diode forward voltage | IBOOT = 5 mA | 0.75 | V | ||
PGOOD | ||||||
RatioUV | Undervoltage protection | 89% | ||||
POWER FETs | ||||||
RON | Power FETs | High-Side,TA = 25°C, VILLUM_A,B_BOOST – ILLUM_A,B_SW = 5.5 V | 150 | mΩ | ||
Low-side, TA= 25°C | 85 | |||||
LED CURRENT CONTROL | ||||||
VLED_ANODE | LED anode voltage(1) | Ratio with respect to
VILLUM_A,B_VIN
(Duty cycle limitation) |
0.85x | |||
7.2 | V | |||||
ILED | LED currents | VILLUM_A,B_VIN ≥ 8 V. See register SWx_IDAC[9:0] (Register Maps) for settings. | 300 | 6000 | mA | |
DC current offset, CH1,2,3_SWITCH | RLIM = 25 mΩ | –75 | 0 | 75 | mA | |
Transient LED current limit range (programmable) | 20% higher than
ILED. Min-setting, RLIM= 25 mΩ |
0.67 | A | |||
20% higher than
ILED. Max-setting, RLIM= 25 mΩ |
8 | |||||
tRISE | Current rise time | ILED from 5% to 95%, ILED = 300 mA, transient current limit disabled(1) | 50 | µs | ||
BUCK CONVERTERS—LDO_BUCKS | ||||||
VPWR_VIN | Input voltage range PWR1,2,5,6,7_VIN | 6 | 12 | 20 | V | |
VPWR_5P5V | PWR_5P5V | 5.5 | V | |||
PGOOD | Power good PWR_5P5V | Rising | 80% | |||
Falling | 60% | |||||
OVP | Overvoltage Protection PWR_5P5V | 7.2 | V | |||
Regulator dropout | At 25 mA, VPWR_VIN= 5.5 V | 41 | mV | |||
Regulator current limit(1) | 300 | 340 | 400 | mA | ||
BUCK CONVERTER—GENERAL PURPOSE BUCK CONVERTER(7) | ||||||
OUTPUT VOLTAGE | ||||||
VPWR6_VOUT | Output voltage (General purpose buck2) | 8-bit programmable | 1 | 5 | V | |
DC output voltage accuracy | IOUT= 0 mA | –3.5% | 3.5% | |||
MOSFET | ||||||
RON,H | High side switch resistance | 25°C, VPWR6_Boost – VPWR6_SWITCH = 5.5 V | 150 | mΩ | ||
RON,L | Low side switch resistance(1) | 25°C | 85 | mΩ | ||
LOAD CURRENT | ||||||
Allowed load current PWR6(2) | 2 | A | ||||
IOCL | Current limit(1)(2) | LOUT= 3.3 μH | 3.2 | 3.6 | 4.2 | A |
ON-TIME TIMER CONTROL | ||||||
tON | On time | VIN = 12 V, VO = 5 V | 120 | ns | ||
tOFF(MIN) | Minimum off time(1) | TA = 25°C, VFB = 0 V | 270 | 310 | ns | |
START-UP | ||||||
Soft start | 1 | 2.5 | 4 | ms | ||
PGOOD | ||||||
RatioOV | Overvoltage protection | 120% | ||||
RatioPG | Relative power good level | Low to high | 72% | |||
AUXILIARY LDOs | ||||||
VPWR3,4_VIN | Input voltage range | LDO1 (PWR4), LDO2 (PWR3) | 3.3 | 12 | 20 | V |
PGOOD | Power good PWR3,4_VOUT | PWR3,4_VOUT rising | 80% | |||
PWR3,4_VOUT falling | 60% | |||||
OVP | Overvoltage protection PWR3,4_VOUT | 7 | V | |||
DC output voltage accuracy PWR3,4_VOUT | IOUT= 0 mA | –3% | 3% | |||
Regulator current limit(1) | 300 | 340 | 400 | mA | ||
tON | Turn-on time | to 80% of VOUT = PWR3 and PWR4, C= 1 µF | 40 | µs | ||
LDO2 (PWR3) | ||||||
VPWR3_VOUT | Output voltage PWR3_VOUT | 2.5 | V | |||
Load current capability | 200 | mA | ||||
DC load regulation PWR3_VOUT | VOUT = 2.5 V, IOUT= 5 mA to 200 mA | –70 | mV/A | |||
DC line regulation PWR3_VOUT | VOUT = 2.5 V, IOUT= 5 mA, PWR3_VIN = 3.3 to 20 V | 30 | µV/V | |||
LDO1 (PWR4) | ||||||
VPWR4_VOUT | Output voltage PWR4_VOUT | 3.3 | V | |||
Load current capability | 200 | mA | ||||
DC load regulation PWR4_VOUT | VOUT = 3.3 V, IOUT= 5 mA to 200 mA | –70 | mV/A | |||
DC line regulation PWR4_VOUT | VOUT = 3.3 V, IOUT= 5 mA, PWR4_VIN= 4 to 20 V | 30 | µV/V | |||
Regulator dropout | At 25 mA, VOUT= 3.3 V, VPWR4_VIN= 3.3 V | 48 | mV | |||
MEASUREMENT SYSTEM | ||||||
LABB | ||||||
τRC | Settling time | To 1% of final value(1) | 4.6 | 6.6 | µs | |
To 0.1% of final value(1) | 7 | 10 | ||||
VACMPR_IN_LABB | Input voltage range ACMPR_IN_LABB | 0 | 1.5 | V | ||
Sampling window ACMPR_IN_LABB | Programmable per 7 µs | 7 | 28 | µs | ||
DIGITAL CONTROL - LOGIC LEVELS AND TIMING CHARACTERISTICS | ||||||
VSPI_VIN | SPI supply voltage range | SPI_VIN | 1.7 | 3.6 | V | |
VOL | Output low-level | RESET_Z, ACMPR_OUT, CLK_OUT. IO = 0.3 mA sink current | 0 | 0.3 | V | |
SPI_DOUT. IO = 5 mA sink current | 0 | 0.3 × VSPI_VIN | ||||
INT_Z. IO = 1.5 mA sink current | 0 | 0.3 × VSPI_VIN | ||||
VOH | Output high-level | RESET_Z, ACMPR_OUT, CLK_OUT. IO = 0.3 mA source current | 1.3 | 2.5 | V | |
SPI_DOUT. IO = 5 mA source current | 0.7 × VSPI_VIN | VSPI_VIN | ||||
VIL | Input low-level | PROJ_ON, CH_SEL_0, CH_SEL_1 | 0 | 0.4 | V | |
SPI_CSZ, SPI_CLK, SPI_DIN | 0 | 0.3 × VSPI_VIN | ||||
VIH | Input high-level | PROJ_ON, CH_SEL_0, CH_SEL_1 | 1.2 | V | ||
SPI_CSZ, SPI_CLK, SPI_DIN | 0.7 × VSPI_VIN | VSPI_VIN | ||||
IBIAS | Input bias current | VIO= 3.3 V, any digital input pin | 0.1 | µA | ||
SPI_CLK | SPI clock frequency(3) | Normal SPI mode, DIG_SPI_FAST_SEL = 0, ƒOSC = 9 MHz | 0 | 36 | MHz | |
Fast SPI mode, DIG_SPI_FAST_SEL = 1, VSPI_VIN> 2.3 V, ƒOSC = 9 MHz | 20 | 40 | ||||
tDEGLITCH | Deglitch time | CH_SEL_0, CH_SEL_1(1) | 300 | ns | ||
INTERNAL OSCILLATOR | ||||||
ƒOSC | Oscillator frequency | 9 | MHz | |||
Frequency accuracy | TA= 0 to 70°C | –5% | 5% | |||
THERMAL SHUTDOWN | ||||||
TWARN | Thermal warning (HOT threshold) | 120 | °C | |||
Hysteresis | 10 | |||||
TSHTDWN | Thermal shutdown (TSD threshold) | 150 | °C | |||
Hysteresis | 15 |