FEATURES: Wire Connections Operating Temperature range 40ºC to 85ºC Constant current output Open and Short LED Protection Wide (4:) input voltage range PWM/Digital and Analog Voltage dimming High efficiency up to 95% Remote ON/OFF Control Step Down DC/DC LED driver RoHS Compliant Models Single output Model Input Voltage (V) Output Voltage (V) Output Current (ma) Efficiency (%) AMLDLW3035Z 730 228 350 95 AMLDLW3050Z 730 228 500 95 AMLDLW3070Z 730 228 700 95 AMLDLW0Z 730 228 000 95 NOTE: All specifications in this datasheet are measured at an ambient temperature of 25 C, humidity<75%, nominal input voltage and at rated output load unless otherwise specified. Input Specifications Parameters Nominal Typical Maximum Units Voltage range 24 730 VDC Filter Capacitor Absolute Maximum Rating 40 VDC Peak Input Voltage time 500 ms DC/DC ON (Leave open if not used) ON Open or 0.3V<Vadj<.25 DC/DC OFF OFF(shutdown) Vadj<0.5 Maximum Remote pin drive current Vadj =.25V ma Quiescent Current in Shutdown mode Vin = 30V, Vadj <0.5 0.25 ma On/Off Control (Digital Control) Max PWM Frequency KHz Minimum Switch ON/OFF time ns On/Off Control (Analog Dimming Control) (Leave open if not used) Input voltage range 0.3.25 VDC Drive with DC Voltage 0.3V < <.25V to adjust output current from 25% to 00% Control Voltage Range limits ON 0.2 0.3V (Vadj rise) OFF 0.50.25V (Vadj fall) Maximum Analog pin drive current Vadj =.25V ma Output Specifications Parameters Conditions Typical Maximum Units Current accuracy ±6 % Output Voltage range V input = 30V 228 VDC Output current Vin Vout >.5V to 3V ma Short Circuit protection Regulated at the rated current for each model Output no load Protection Continuously Max load capacitance 47 µf Temperature coefficient Ta = 40 to 85 C ±0.05 %/ o C Ripple & Noise 20MHz Bandwidth 250 mv pp General Specifications Parameters Conditions Typical Maximum Units Switching frequency 00% load 40 380 KHz Operating temperature 40 to 85 o C Storage temperature 40 to 25 o C Maximum case temperature 00 o C Thermal Impedance Free air convection 40 o C/W Cooling Free air convection F 05e R9 of North America only
General Specifications (continued) Parameters Conditions Typical Maximum Units Humidity 95 % RH Case material NonConductive Black Plastic (UL94V0 rated) Weight 6.2 g Dimensions (L x W x H) 0.92 x 0.55 x 0.40 inches 23.40 x 4.00 x 0.6 mm MTBF > 500 000hrs (MILHDBK27 F at 25 o C) Maximum Soldering Temperature.5mm from case for 0sec. 260 o C NOTES:.Reversed polarity at the input power will damage the driver. The input ground must not be connected to the negative output. 2.Leave the pin opened if not used, grounding will shut the driver off, connecting to Vin will damage the driver. 3.Maximum output open voltage is equal to input voltage Pin Out Specifications Pin Single Description (Black) V Input DC Supply 2(White) Vadj PWM/ON/OFF or not used 8(Blue) V Output LED Cathode Connection 9(Yellow) V Output LED Anode connection 6 (Red) V Output DC Supply Dimensions 23.40 (0.92) 9.60 (0.77) 6 9 4.00 (0.55) 2 Bottom View 8.00 (0.43) 4.00 (0.55) 4.00 (0.55) 0.00 (0.39) 00.00 (3.94) 0.6 (0.40) 0.6 (0.40) 2 6 8 9 0.00 (0.39) 00.00 (3.94) All Wires are Stripped & Tinned Lead Wires are under the specifications of general lamps: Wire is UL 05/CSATEM listed #22AWG / 600V / 05ºC F 05e R9 2 of North America only
Application circuit examples: st LED Analogue DIM PWM Dim/ON/OFF Analogue DIM PWM Dim/ON/OFF st LED AC In 5Vac to 2Vac 0.uF optional AC In 00uF to 330uF Vin Analogue DIM PWM Dim/ON/OFF st LED Output Current Adjustment by External DC Control Voltage: The nominal output current is given by: Iout 0.08 x Vadj X Model Number X AMLDL3035Z 0.280 AMLDL3050Z 0.97 AMLDL3070Z 0.388 AMLDL0Z 0.095 Vctrl 5v 0.3.25V Vin st LED R 30K R2 0K st LED 0K 0K TL43 0K st LED = [ R2 R R2 [ X VCTRL F 05e R9 3 of North America only
Resistive Dimming Control A simplified dimming control can be achieved using a variable resistor connected between and. Capacitor CADJ is optional, it is installed to limit AC mains interference and high frequency noise. The recommended value of CADJ is 0.22µF. NOTE: Typical error is ±0% with resistive dimming control CADJ RADJ st LED Output Current Adjustment by PWM Control: Driving Directly A Pulse Width Modulated (PWM) signal with a duty cycle of DPWM can be applied directly to pin as shown below. The output current is given by: 0. x DPWM Iout [for 0<DPWM<] X Model Number X AMLDLW3035Z 0.280 AMLDLW3050Z 0.97 AMLDLW3070Z 0.388 AMLDLW0Z 0.095.25V 0V PWM st LED Driving Via Open Collector Transistor The can also be driven via an open collector transistor as shown below. The diode and resistor serve to suppress any possible high amplitude negative voltage spikes to the input resulting from the collector to emitter capacitance of the transistor. Any negative voltage spikes will cause errors in output current and/or unstable driver operation..25v 0V PWM 0K st LED F 05e R9 4 of North America only
Driving the from a Microcontroller The can be driven from an open drain output of a microcontroller as shown below. The diode and resistor serve to suppress any possible high amplitude negative voltage spikes to the input resulting from the drain to source capacitance of the FET. Any negative voltage spikes will cause errors in output current and/or unstable driver operation. MCU 0K st LED Output Current Adjustment by PWM Control (Dimming): A PWM signal must have a frequency of greater than 00Hz to prevent any visible flicker. Output Current Adjustment by PWM Control (Flash): Vin 0uF 35V AMSR7805Z 00nF 0uF 6V 470 N448 7 8 4 Vcc Reset Discharge 00nF VR 00K 00nF 6 Threshold 2 Trigger NE 555 Out CRT_V 3 5 2SD782K 20 00nF 3.3K N448 PMW Pin 2 () Pin F 05e R9 5 of North America only
Recommended Class B EMI Filter: Vin 0uF L Analogue DIM PWM Dim/ON/OFF st LED Model Number Inductor Value (µh) AMLDLW3035Z 68 AMLDLW3050Z 27 AMLDLW3070Z 27 AMLDLW0Z 27 Thermal Feedback Circuit Vin R 4.7K BZX284C6V2 R3 0K Thermistor B 3900 R2 0K Q 0K Vin st LED Thermally Connected The selection of components for the thermal feedback circuit is depends on the choice of R2 and R3 and the effectiveness of the LED heatsink. To optimize the LED brightness control at high temperatures, the LEDs must have a sufficient thermal extraction path, if not the reduction in drive current will not be optimal. The thermal control threshold points are set by adjusting R2. Three values (33K, 22K, and 0K) were tested. These values were chosen to provide thermal break points of approximately 25ºC, 40ºC, and 60ºC. Note, that the LED drive current will not continually dim to zero the thermal controls applying DC control to that pin has a dimming ratio from maximum current of approximately 5:. Once the reduced DC level drops below the shutdown threshold of around mv, the LED drive current will fall to zero and the LEDs will be off. The slope of the current reduction is determined by the beta value of the thermistor. The larger the Beta value the sharper will be the resultant current control response. The slope of the current reduction is also affected by Q s base emitter voltage variation with temperature. F 05e R9 6 of North America only
Output Current Adjustment By External DC Control Voltage: N448.25V 0K st LED N448.25V 0K st LED 5V ~ Vin N448.25V 0K st LED 4.7K TL43 OUT: 0 ~ 2.5V 0K N448.25V 0K st LED N448.25V 0K st LED N448.25V 0K st LED F 05e R9 7 of North America only
Typical Characteristics: 375 350 325 275 250 225 75 50 25 00 75 50 25 AMLDLW3035Z Frequency (KHz) LED LED 2 LED Operating Frequency vs Input Voltage 7 8 9 023456789202222324252627282930 6 LED 7 LED Efficiency (%) 95.00 90.00 85.00 80.00 75.00 70.00 LED 2 LED Efficiency vs Vin 6 LED 7 LED 7 8 9 0 2 3 4 5 6 7 8 9 20 2 22 23 24 25 26 27 28 29 30 375 350 325 275 250 225 75 50 25 00 75 50 25 0 ILED (ma) Output Current Vs 0 0.25 0.35 0.45 0.55 0.65 0.75 0.85 0.95.05.5.25.3.35 (V) F 05e R9 8 of North America only
Typical Characteristics: AMLDLW3050Z Frequency (KHz) 350 325 275 250 225 75 50 25 LED 00 75 50 25 LED 2 LED Operating Frequency vs Input Voltage 7 8 9 0 2 3 4 5 6 7 8 9 20 2 22 23 24 25 26 27 28 29 30 6 LED 7 LED Efficiency (%) 00.00% 95.00% 90.00% 85.00% 80.00% 75.00% 70.00% 2 LED LED Efficiency vs Vin 6 LED 7 LED 7 8 9 0 2 3 4 5 6 7 8 9 20 2 22 23 24 25 26 27 28 29 30 ILED (ma) 600 Output Current Vs 500 400 00 0 0 0. 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9..2.3 (V) F 05e R9 9 of North America only
Typical Characteristics: AMLDLW3070Z Operating Frequency vs Input Frequency (KHz) ) 350 325 275 250 225 75 50 25 00 75 LED 7 LED 50 2 LED 6 LED 25 7 8 9 0 2 3 4 5 6 7 8 9 20 2 22 23 24 25 26 27 28 29 30 Efficiency (%) 00% 95% 90% 85% 80% 75% 70% 2 LED LED Efficiency vs Vin 6 LED 7 8 9 023456789202222324252627282930 7 LED Output Current Vs ILED (ma) 700 600 500 400 00 0 0.05 0.5 0.25 0.35 0.45 0.55 0.65 0.75 0.85 0.95.05.5.25 (V) F 05e R9 0 of North America only
Typical Characteristics: AMLDLW0Z Frequency (KHz) 275 250 Operating Frequency vs Input Voltage Efficiency (%) 00% 95% Efficiency vs Vin 6 LED 7 LED 225 75 50 90% 85% 2 LED LED 25 00 LED 80% 75 50 25 7 LED 2 LED 6 LED 7 8 9 0 2 3 4 5 6 7 8 9 20 2 22 23 24 25 26 27 28 29 30 75% 70% 7 8 9 0 2 3 4 5 6 7 8 9 20 2 22 23 24 25 26 27 28 29 30 ILED (ma) Output Current Vs 00 000 900 800 700 600 500 400 00 0 0 0. 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9..2.3 (V) NOTE:. Datasheets are updated as needed and as such, specifications are subject to change without notice. Once printed or downloaded, datasheets are no longer controlled by Aimtec; refer to www.aimtec.com for the most current product specifications. 2. Product labels shown, including safety agency certifications on labels, may vary based on the date manufactured. 3. Mechanical drawings and specifications are for reference only. 4. All specifications are measured at an ambient temperature of 25 C, humidity<75%, nominal input voltage and at rated output load unless otherwise specified.5..aimtec may not have conducted destructive testing or chemical analysis on all internal components and chemicals at the time of publishing this document. CAS numbers and other limited information are considered proprietary and may not be available for release. 5. This product is not designed for use in critical life support systems, equipment used in hazardous environments, nuclear control systems or other such applications which necessitate specific safety and regulatory standards other the ones listed in this datasheet. F 05e R9 of North America only