Supertex inc. HV9919BDB1 Single, High Current LED Driver Demoboard General Description The HV9919BDB1 demoboard is a high current LED driver designed to drive one LED at 1.0A from a 9.0 16V DC input. The demoboard uses Supertex’s HV9919 hysteretic buck LED driver IC. The HV9919BDB1 includes two PWM dimming modes. The analog control of the PWM dimming mode allows the user to dim the LED using a 0 - 2.0V analog signal applied between the ADIM and GND pins (0V gives 0% and 2.0V gives 100%). In this mode, the PWM dimming frequency is set to 1kHz on the board. The digital control of PWM dimming mode allows the user to dim the LEDs using an external, TTL-compatible square wave source applied between DIM and GND. In this case, the PWM dimming frequency and duty ratio are set by the external square wave source. Specifications Parameter Input voltage 9.0 - 16VDC (steady state) 40V max (transient) Reverse polarity protection 60V (max) Output voltage 2.0 - 5.0V Output current 1.0A ± 5% Output current ripple (@13.5V input and 3.3V output) Full load efficiency (@13.5V input) 16% (peak to peak) 84% Open LED protection Yes Output short circuit protection Yes Dimensions Connection Diagram Connections Input Connection: Connect the input DC voltage between VIN and GND terminals of connector J1 as shown in the connection diagram. Output Connection: Connect the LEDs between LED+ (anode of LED string) and LED- (cathode of LED string) of connector J2. PWM Dimming Connection: 1. If no PWM dimming is required, short DIM, VDD and ADIM terminals of connector J3. Doc.# DSDB-HV9919BDB1 B041914 Value 25.4mm X 25.4mm Silk Screen (top) 2. If dimming using an external PWM dimming source, connect the PWM source between the DIM and GND terminals of connector J3 and short terminals ADIM and VDD. The recommended PWM dimming frequency is ≤1.0kHz. 3. If dimming using an external analog voltage source, connect the source between the ADIM and GND terminals of connector J3 and short terminals DIM and VDD. The voltage range for control of the PWM dimming is 0 - 2.0V. Supertex inc. www.supertex.com HV9919BDB1 Typical Results Fig. 1. Efficiency vs. Input Voltage Plot Fig. 2. Line Regulation of LED Current Plot 85 % change in LED Current 0.8 84.8 Efficiency (%) Line Regulation of LED Current 1 Full Load Efficiency vs. Input Voltage 84.6 84.4 84.2 0.6 0.4 0.2 0 -0.2 -0.4 -0.6 -0.8 84 8 10 12 14 16 -1 18 Input Voltage (V) Efficiency vs. Load Voltage (@13.5V input) % change in LED Current Efficiency (%) 70 4 3 0 2 Switching Frequency (kHz) Switching Frequency (kHz) 300 250 200 14 16 400 350 300 250 200 150 18 Input Voltage (V) Doc.# DSDB-HV9919BDB1 B041914 5 Switching Frequency vs. Load Voltage (@13.5V input) 450 350 12 4 Fig. 6. Switching Frequency vs. Load Voltage Plot 400 10 3 Load Voltage (V) Switching Frequency vs. Input Voltage (Full Load) 8 18 0.5 -0.5 5 Fig. 5. Switching Frequency vs. Input Voltage Plot 150 16 1 Load Voltage (V) 450 14 Load Regulation of LED Current 1.5 75 2 12 Fig. 4. Load Regulation of LED Current Plot 80 65 10 Input Voltage (V) Fig. 3. Efficiency vs. Load Voltage Plot 85 8 2 2 3 4 Load Voltage (V) 5 Supertex inc. www.supertex.com HV9919BDB1 Typical Waveforms (All waveforms are at 13.5V input and 3.3V LED Voltage unless otherwise noted) Figure 7. Steady State Waveforms Drain Voltage LED Current C1 (Yellow) C4 (Green) Time Scale Figure 8. : : : Drain Voltage (5V/div) LED Current (500mA/div) 1μs/div Transient Response of the LED Current Input Voltage LED Current C1 (Yellow) C4 (Green) Time Scale Doc.# DSDB-HV9919BDB1 B041914 : : : Input Voltage (20V/div) LED Current (500mA/div) 20μs/div 3 Supertex inc. www.supertex.com HV9919BDB1 Typical Waveforms (All waveforms are at 13.5V input and 3.3V LED Voltage unless otherwise noted) Figure 9. PWM Dimming using the DIM input PWM Dimming Input LED Current (a) PWM Dimming Performance Time Scale : 1ms/div PWM Dimming Input PWM Dimming Input LED Current LED Current (b) PWM Dimming Rise Time Time Scale : C1 (Yellow) C4 (Green) Figure 10. (c) PWM Dimming Fall Time 10µs/div : : Time Scale : 10µs/div PWMD Input Voltage (5V/div) LED Current (500mA/div) PWM Dimming using the ADIM pin RAMP Voltage ADIM Voltage LED Current C1 (Yellow) C2 (Pink) C4 (Green) Time Scale Doc.# DSDB-HV9919BDB1 B041914 : : : : ADIM Voltage (1V/div) RAMP Voltage (1V/ div) LED Current (500mA/div) 200μs/div 4 Supertex inc. www.supertex.com Doc.# DSDB-HV9919BDB1 B041914 5 VDD DIM NTC GND VDD R5 100k R3 1.0k R2 13.7k C4 1.0n VDD C6 1.0n 5 3 4 CS VIN DIM RAMP 6 VDD GT C5 1.0uF 10V TAB GND HV9919B 1 2 ADIM U1 9 7 8 C1 2.2uF 25V C2 2.2uF 25V NTC VDD DIM 3 2 1 4 J3 2 R1 0.2 1/2W L1 22µH (DRA74-220) Q1 Si7308DN 1 D1 STPS2L60A C3 1.0uF 25V LED- LED+ HV9919BDB1 HV9919BDB1 Schematic Diagram Supertex inc. www.supertex.com HV9919BDB1 Bill of Materials Item # Quan. RefDes Description Package Manufacturer Manufacturer’s Part # 1 2 C1, C2 2.2µF, 25V, 10% X7R ceramic capacitor SMD1206 AVX Corp 12063C225K4Z2A 2 1 C3 1.0µF, 25V, 10% X7R ceramic capacitor SMD1206 Kemet C1206C105K3RACTU 3 2 C4, C6 1.0nF, 50V, 5%, C0G ceramic capacitor SMD0603 TDK Corp C1608C0G1H102J 4 1 C5 1.0µF, 10V, 10% X7R ceramic capacitor SMD0603 Taiyo Yuden LMK107B7105KA-T 5 1 D1 60V, 2A schottky diode SMA ST Micro STPS2L60A 6 4 VIN, LED-, LED+, GND Compact surface mount test point SMT Keystone Electronics 5016 7 1 J3 4 position, 0.1" vertical header SMT Molex 68301-1015 8 1 L1 22µH, 1.8A rms, 1.7A sat inductor SMT Coiltronics DRA74-220-R 9 1 Q1 60V, 72mO, 9nC, N-Channel MOSFET Powerpac 1212-8 Vishay SI7308DN-T1-E3 10 1 R1 0.2, 1/4W, 1% chip resistor SMD1210 Rohm MCR25JZHFLR200 11 1 R2 13.7kΩ, 1/10W, 5% chip resistor SMD0603 Yageo RC0603FR-0713K7L 12 1 R3 1.00kΩ, 1/10W, 5% chip resistor SMD0603 Panasonic ERJ-3GEYJ102V 13 1 R5 100kΩ, 1/10W, 5% chip resistor SMD0603 Panasonic ERJ-3GEYJ104V 14 1 U1 Hysteretic Buck LED Driver with integrated FET DFN-8 Supertex HV9919BDK7-G Supertex inc. does not recommend the use of its products in life support applications, and will not knowingly sell them for use in such applications unless it receives an adequate “product liability indemnification insurance agreement.” Supertex inc. does not assume responsibility for use of devices described, and limits its liability to the replacement of the devices determined defective due to workmanship. No responsibility is assumed for possible omissions and inaccuracies. Circuitry and specifications are subject to change without notice. For the latest product specifications refer to the Supertex inc. (website: http//www.supertex.com) Supertex inc. ©2014 Supertex inc. All rights reserved. Unauthorized use or reproduction is prohibited. Doc.# DSDB-HV9919BDB1 B041914 6 1235 Bordeaux Drive, Sunnyvale, CA 94089 Tel: 408-222-8888 www.supertex.com