Ⅱ IP67 0 Ⅱ
SPECIFICATION MODEL OUTPUT INPUT PROTECTION DC VOLTAGE RATED CURRENT RATED POWER DIMMING RANGE PWM FREQUENCY (Typ.) VOLTAGE TOLERANCE SETUP, RISE TIME Note.2 HOLD UP TIME (Typ.) VOLTAGE RANGE FREQUENCY RANGE POWER FACTOR (Typ.) EFFICIENCY (Typ.) AC CURRENT (Typ.) INRUSH CURRENT (Typ.) WORKING TEMP. 40 ~ 70 (Refer to "Derating Curve") WORKING HUMIDITY 20 ~ 9% RH noncondensing ENVIRONMENT STORAGE TEMP., HUMIDITY 40 ~ 80, 10 ~ 9% RH TEMP. COEFFICIENT ± 0.03%/ (0 ~ 0 ) VIBRATION 10 ~ 00Hz, G 12min./1cycle, period for 72min. each along X, Y, Z axes SAFETY & EMC OTHERS NOTE SAFETY STANDARDS WITHSTAND VOLTAGE ISOLATION RESISTANCE EMC IMMUNITY MTBF DIMENSION PWM12012 PWM12024 PWM12036 PWM12048 12V 24V 36V 48V 10A A 3.4A 2.A 120W 120W 122.4W 120W 0 ~ 100% 300Hz ±4.0% ±4.0% ±2.0% ±1.0% 00ms, 80ms 230VAC / 11VAC at full load 16ms/230VAC 16ms/11VAC at full load 90 ~ 30VAC 127 ~ 431VDC 47 ~ 63Hz PF>0.97/11VAC, PF>0.96/230VAC, PF>0.94/277VAC at full load (Please refer to "Power Factor Characteristic" curve) TOTAL HARMONIC DISTORTION THD< 20% when output loading 60% at 11VAC/230VAC input and output loading 7% at 277VAC input EMC EMISSION 88% 90% 90% 90.% 1.3A / 11VAC 0.6A / 230VAC 0.A / 277VAC COLD START 60A(twidth=20 μs measured at 0% Ipeak) at 230VAC MAX. NO. of PSUs on 16A CIRCUIT BREAKER 4 units (circuit breaker of type B) / 6 units (circuit breaker of type C) at 230VAC LEAKAGE CURRENT <0.2mA / 277VAC OVERLOAD 108 ~ 120% rated output power Protection type : Hiccup mode, recovers automatically after fault condition is removed SHORT CIRCUIT Hiccup mode, recovers automatically after fault condition is removed 1 ~ 17V 28 ~ 34V 41 ~ 46V 4 ~ 60V OVER VOLTAGE Protection type : Shut down o/p voltage, repower on to recover OVER TEMPERATURE Shut down o/p voltage, repower on to recover UL870, CSA C22.2 No. 20. 1312, ENEC EN613471, EN61347213, EN62384 independent, IP67 approved; Design refer to EN60331 I/PO/P:3.7KVAC I/PO/P:100M Ohms / 00VDC / 2 / 70% RH Compliance to EN01, EN6100032 Class C ( 60% load) ; EN6100033 Compliance to EN6100042,3,4,,6,8,11; EN6147, light industry level(surge LN : 2KV), criteria A 228.7K hrs min. MILHDBK217F (2 ) 191*63*37.mm (L*W*H) PACKING 0.97Kg; 1pcs/1.6Kg/0.74CUFT
Block Diagram PFC fosc : 0~120KHz PWM fosc : 60~130KHz I/P EMI FILTER & RECTIFIERS PFC CIRCUIT O.T.P. O.L.P. POWER SWITCHING PWM & PFC CONTROL RECTIFIERS V & DIMMING V FILTER CIRCUIT O.L.P. DIM DIM DETECTION CIRCUIT O.V.P. Derating Curve Static Characteristics 100 100 90 LOAD (%) 80 60 230VAC Input only 0 12V only 40 20 LOAD (%) 80 70 60 0 40 40 2 0 1 30 40 4 0 60 70 (HORIZONTAL) 90 100 12 13 14 1 16 17 180 200 230 30 AMBIENT TEMPERATURE ( ) INPUT VOLTAGE (V) 60Hz Power Factor Characteristic PF 1.00 0.9 0.90 0.8 0.80 0.7 0.70 0.6 0.60 0. 0.0 0.4 0.40 0.3 0.30 Constant Voltage Mode 10% 20% 30% 40% 0% 60% 70% 80% 90% 100% LOAD (120W) 277V 230V 11V
EFFICIENCY vs LOAD (48V Model) possess superior working efficiency that up to 90.% can be reached in field applications. EFFICIENCY (%) 92 91 90 89 88 87 86 8 84 83 82 81 80 10% 20% 30% 40% 0% 60% 70% 80% 90% 100% LOAD 277V 230V 11V DIMMING OPERATION The PWM style output is a simple switching of supply ON/OFF at a rate so fast that the human eye cannot see LED flickering. Duty cycle describes the proportion of time when output voltage is ON relative to the entire period of time. It is expressed in percentage, 100% being fully ON (maximal brightness) and a low duty cycle corresponding to lower brightness. With builtin 3 in 1 dimming function, the duty of the PWM style output can be adjusted through output cable by connecting a resistance or 0~10Vdc or 10V PWM signal between DIM and DIM. Connection V LED Strips V DIM 0~10Vdc or 10V PWM or resistance control dimmer DIM DO NOT connect "DIM to V"
Duty cycle of output current VS Dimming input Duty cycle of output current 100% 90% 80% 70% 60% 0% 40% 30% 20% NonLinear 100% when DIM/DIM are open circuit. Note : The output current drops down to 0% when the dimming input is about 6KΩor 0.6Vdc, or 10V PWM signal with 6% duty cycle. 10% Note 0% 0V 1V 2V 3V 4V V 6V 7V 8V 9V 10V 0~10V 0% 10% 20% 30% 40% 0% 60% 70% 80% 90% 100% Duty cycle of 10V PWM (frequency range = 100~3KHz) Short 10K 20K 30K 40K 0K 60K 70K 80K 90K 100K Short~100KΩresistance Dimming input PWM Style Output Output DC current ON TON Duty cycle(%) = 100% T Io=0A TON OFF Output PWM frequency : 300Hz fixed (Typ.) T Mechanical Specification AC/L(Brown) AC/N(Blue) 300± 20 300± 20 0± 3 0± 3 SJTW 18AWG 2C T case: Max. Case Temperature. SJTW 14AWG 2C UL2464 18AWG 2C 37. 63 2ψ 4. 31. 191 9. Case No. PWM120 Unit:mm V(Red) V(Black) DIM(Blue) DIM(White) Recommend Mounting Direction
Installation Manual Connection AC/L(BROWN) AC/N(BLUE) V(RED) V(BLACK) DIM(BLUE) DIM(WHITE) LED Strip 0~10Vdc or 10V PWM or resistance Dimmer Cautions Before commencing any installation or maintenance work, please disconnect the power supply from the utility. Ensure that it cannot be reconnected inadvertently! Keep proper ventilation around the unit and do not stack any object on it. Also a 101 cm clearance must be kept when the adjacent device is a heat source. Mounting orientations other than standard orientation or operate under high ambient temperature may increase the internal component temperature and will require a derating in output current. Current rating of an approved primary /secondary cable should be greater than or equal to that of the unit. Please refer to its specification. For LED power supplies with waterproof connectors, verify that the linkage between the unit and the lighting fixture is tight so that water cannot intrude into the system. For dimmable LED power supplies, make sure that your dimming controller is capable of driving these units.pwm series require 0.1mA each unit. Tc max. is identified on the product label. Please make sure that temperature of Tc point will not exceed limit. DO NOT connect "DIM to V". Suitable for indoor use or outdoor use without direct sunlight exposure. Please avoid immerse in the water over 30 minutes. The power supply is considered as a component that will be operated in combination with final equipment. Since EMC performance will be affected by the complete installation, the final equipment manufacturers must requalify EMC Directive on the complete installation again. For more information about installation, please refer to www.meanwell.com/webnet/search/installationsearch.html for details.