FEATURES: Models Single output Step Down DC/DC LED driver Operating Temperature range -4ºC to +85ºC Constant current output Open and Short LED Protection Ultra Wide (8:) input voltage range PWM/Digital and Analog Voltage dimming High efficiency up to 97% Built with MLCC Capacitors only Model Input Voltage (V) Output Voltage (V) Output Current (ma) Efficiency (%) Ripple & Noise (mv p-p) AMLD-65Z 7-6 2-57 97 AMLD-6Z 7-6 2-57 97 AMLD-63Z 7-6 2-57 97 AMLD-635Z 7-6 2-57 3 97 AMLD-6Z 7-6 2-57 97 4 AMLD-67Z 7-6 2-57 7 97 AMLD-6Z 7-6 2-48 97 8 NOTE: All specifications in this datasheet are measured at an ambient temperature of C, humidity<%, nominal input voltage and at rated output load unless otherwise specified. Input Specifications Parameters Nominal Typical Maximum Units Voltage range 7-6 VDC Filter Capacitor Absolute Maximum Rating 65 VDC Peak Input Voltage time ms DC/DC ON (Leave open if not used) ON Open or.3v<vadj<. DC/DC OFF OFF(shutdown) Vadj<.5 Maximum Remote pin drive current Vadj =.V ma Quiescent Current in Shutdown mode Vin = 6V, Vadj <.5. ma On/Off Control (Digital Control) Max PWM Frequency KHz Output current adjustment PWM Frequency <Hz. to % Minimum Switch ON/OFF time ns On/Off Control (Analog Dimming Control) (Leave open if not used) Input voltage range.3-. VDC Output current adjustment* Vin<3 - % Control Voltage Range limits ON.2.3V (Vadj rise) OFF.5-.V (Vadj fall) Maximum Analog pin drive current Vadj =.V ma NOTE: Vin Vout must be less than 3V to maintain current adjustment range Output Specifications Parameters Conditions Typical Maximum Units Current accuracy ±7 % Output Voltage range V input = 6V 2-57 VDC Output current Vin Vout > 3V Short Circuit protection Regulated at the rated current for each model Output no load Protection Continuously Max load capacitance 47 µf Temperature coefficient Ta = -4 to +85 C ±.3 %/ o C Ripple & Noise 2MHz Bandwidth See model table F 5e R2.B of 3 North America only
General Specifications Parameters Conditions Typical Maximum Units Switching frequency % load 2 - KHz Operating temperature -4 to +85 o C Storage temperature -4 to + o C Derating See derating curve Maximum case temperature o C Thermal Impedance Free air convection +3 o C/W Cooling Free air convection Humidity 95 % RH Case material Non-Conductive Black Plastic (UL94-V rated) Weight 2.5 g Dimensions (L x W x H). x.8 x.49 inches 3. x 2.32 x 2.45 mm MTBF > 9 hrs (MIL-HDBK-27 F at + o C) Maximum Soldering Temperature.5mm from case for sec. 26 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. Safety Specifications Parameters Standards Pin Out Specifications Designed to meet EN 55 (CISPR22) Pin Single 2 - V Input - DC Supply 3 - V Input - DC Supply 4 Vadj PWM/ON/OFF or not used 9 - V Output LED Cathode connection - V Output LED Cathode connection 4 + V Output LED Anode connection 6 + V Output LED Anode connection 22 + V Input + DC Supply 23 + V Input + DC Supply Derating F 5e R2.B 2 of 3 North America only
Dimensions 3. (.).4 (. 2 3 4 9 2.3 (.8) Bottom View 5.24 (.6) 23 22 2 6 4. (.2) 2.54 (.) 5.8 (.2) 2.45 (.49) 3.5 (.2 Mechanical Tolerances Case tolerance ±.mm or ±. inches Pin tolerance ±.5 or ±.2 Application circuit examples: +Vin + Analogue DIM PWM Dim/ON/OFF st LED +Vin + Analogue DIM PWM Dim/ON/OFF st LED AC In 5Vac to 42Vac.uF optional AC In uf to 33uF + - +Vin Analogue DIM PWM Dim/ON/OFF st LED F 5e R2.B 3 of 3 North America only
Output Current Adjustment by External DC Control Voltage (VCTRL): VCTRL= (If VCTRL=-.Vdc) -.V st LED GND = [ Vctrl +5v R2 R + R2 [ X VCTRL (If VCTRL>.Vdc) VCTRL VDC R R2 3K K st LED R R2 7K K st LED +Vin R 4.7K R2 K TL43 R3 K = If Vin is between 7 VDC and 36 VDC it is recommended to use the circuit shown below [ R3 R2 + R3 If VCTRL = Vin [ st LED X 2.5 R KDZTR-27B +Vin TL43 4.7K R2 K R3 If Vin is between 36 VDC and 6 VDC it is recommended to use the circuit shown below K st LED F 5e R2.B 4 of 3 North America only
Resistive Dimming Control A simplified dimming control can be achieved using a variable resistor connected between and GND. Capacitor CADJ is optional, it is installed to limit AC mains interference and high frequency noise. The recommended value of CADJ is.22µf. NOTE: Typical error is ±% with resistive dimming control The output current is given by: Ioutnom Iout x Radj (Radj + K) If RADJ is between and 2M ohm, the maximum adjustment range of Iout is % to 9% (for Vin Vout < 2V) CADJ st LED RADJ Output Current Adjustment by PWM Control: Driving Directly A Pulse Width Modulation (PWM) signal with a duty cycle DPWM can be applied to the ADJ pin as shown below. The output current is given by: Iout Ioutnom x DPWM [if PWM frequency < Hz, for.<dpwm<].v V PWM st LED GND F 5e R2.B 5 of 3 North America only
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. 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. F 5e R2.B 6 of 3 North America only
Output Current Adjustment by PWM Control (Dimming): A PWM signal must have a frequency of greater than Hz to prevent any visible flicker. Output Current Adjustment by PWM Control (Flash): Recommended Class B EMI Filter: +Vin + - 4.7uF 47uH + 4.7uF - + - Analogue DIM PWM Dim/ON/OFF st LED F 5e R2.B 7 of 3 North America only
Typical Characteristics: AMLD-63Z Frequency (KHz) 4 3 3 3 Operating Frequency vs Input Voltage LED 7 LED 6 LED 7 8 9 2 3 4 5 6 7 8 9 2 2 22 23 24 26 27 28 29 3 Efficiency (%) 95 9 85 8 7 LED Efficiency vs Vin ( Forward Voltage = 3.5V per LED) 7 8 9 2 3 4 5 6 7 8 9 2 2 22 23 24 26 27 28 29 3 6 LED 7 LED ILED (ma) Output Current Vs 3..35.45.55.65..85.95.5.5..3.35 (V) F 5e R2.B 8 of 3 North America only
37 5 35 32 5 3 27 5 22 5 2 7 5 5 2 5 Typical Characteristics: AMLD-635Z Frequ en cy (KHz) LED LED Operating Frequency vs Input Voltage 7 8 9 2345678922222324262728293 6 LED 7 LED Efficiency (%) 95. 9. 85. 8.. 7. LED Efficiency vs Vin 6 LED 7 LED V in (V) 7 8 9 2 3 4 5 6 7 8 9 2 2 22 23 24 26 27 28 29 3 3 3 3 ILED (ma) Output Current Vs..35.45.55.65..85.95.5.5..3.35 (V) F 5e R2.B 9 of 3 North America only
Typical Characteristics: AMLD-6Z Frequency (KHz) 3 3 LED LED Operating Frequency vs Input Voltage 7 8 9 2 3 4 5 6 7 8 9 2 2 22 23 24 26 27 28 29 3 6 LED 7 LED Efficiency (%).% 95.% 9.% 85.% 8.%.% 7.% LED Efficiency vs Vin 6 LED 7 LED 7 8 9 2 3 4 5 6 7 8 9 2 2 22 23 24 26 27 28 29 3 ILED (ma) 6 Output Current Vs 4..2.3.4.5.6.7.8.9..2.3 (V) F 5e R2.B of 3 North America only
Typical Characteristics: AMLD-66Z Operating Frequency vs Input Voltage Frequency (KHz) 3 LED 7 LED 6 LED 7 8 9 2345678922222324262728293 Efficiency (%) % 95% 9% 85% 8% % 7% LED Efficiency vs Vin 7 8 9 2345678922222324262728293 6 LED 7 LED ILED (ma) Output Current Vs 7 6 4..2.3.4.5.6.7.8.9..2.3 (V) F 5e R2.B of 3 North America only
Typical Characteristics: AMLD-67Z Operating Frequency vs Input Frequency (KHz) ) 3 3 LED 7 LED 6 LED 7 8 9 2 3 4 5 6 7 8 9 2 2 22 23 24 26 27 28 29 3 Efficiency (%) % 95% 9% 85% 8% % 7% LED Efficiency vs Vin 6 LED 7 8 9 2345678922222324262728293 7 LED Output Current Vs ILED (ma) 7 6 4.5.5..35.45.55.65..85.95.5.5. (V) F 5e R2.B 2 of 3 North America only
Typical Characteristics: AMLD-6Z Frequency (KHz) Operating Frequency vs Input Voltage Efficiency (%) % 95% Efficiency vs Vin 6 LED 7 LED 9% 85% LED LED 8% % 7 LED 6 LED 7 8 9 2 3 4 5 6 7 8 9 2 2 22 23 24 26 27 28 29 3 7% 7 8 9 2 3 4 5 6 7 8 9 2 2 22 23 24 26 27 28 29 3 ILED (ma) Output Current Vs 9 8 7 6 4..2.3.4.5.6.7.8.9..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 C, humidity<%, 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 5e R2.B 3 of 3 North America only