IP65 IP67 Ⅰ Ⅰ ~ A Dx
SPECIFICATION MODEL HVGC3700 HVGC31050 HVGC31400 HVGC31750 HVGC32 HVGC32800 HVGC33500 RATED CURRENT RATED POWER 700mA 300W 1050mA 3W 1400mA 3W 1750mA 3W 2mA 3W 2800mA 3W 3500mA 3W CONSTANT CURRENT REGION Note.2 214 ~ 428V 152.4 ~ 304.8V 114.3 ~ 228.6V 91.4~182.8V 76.2 ~ 152.4V 57 ~ 114.3V 45.7 ~ 91.4V OPEN CIRCUIT VOLTAGE (max.) 442V 311V 234V 187V 156V 118V 94V OUTPUT Adjustable for AType only (via builtin potentiometer) CURRENT ADJ. RANGE 350~700mA 525~1050mA 700~1400mA 875~1750mA 1050~2mA 1400~2800mA 1750~3500mA CURRENT RIPPLE 5.0% max. @rated current CURRENT TOLERANCE ±5% SET UP TIME Note.4 500ms/230VAC, 347VAC, 480VAC VOLTAGE RANGE Note.3 180 ~ 528VAC 254VDC ~ 747VDC (Please refer to "STATIC CHARACTERISTIC" section) FREQUENCY RANGE POWER FACTOR (Typ.) 47 ~ 63Hz PF 0.9 8/230VAC, PF 0.9 7 /277VAC, PF 0.95/347VAC, PF 0.93/480VAC @ full load (Please refer to " POWER FACTOR (PF) CHARACTERISTIC" section) THD< %(@ load 50%/230VAC, 277VAC, 347VAC, @ load 60%/480VAC) TOTAL HARMONIC DISTORTION INPUT (Please refer to TOTAL HARMONIC DISTORTION (THD) section) EFFICIENCY (Typ.) AC CURRENT (Typ.) 93.5% 1.1A / 347VAC 93.5% 0.8A / 480VAC 93.5% 93.5% 93.5% 93.5% 93% INRUSH CURRENT(Typ.) MAX. NO. of PSUs on 16A CIRCUIT BREAKER COLD START 50A(t width=9 μs measured at 50% I peak) at 480VAC; Per NEMA 410 2 unit(circuit breaker of type B) / 4 units(circuit breaker of type C) at 480VAC LEAKAGE CURRENT <0.75mA / 480VAC SHORT CIRCUIT Constant current limiting, recovers automatically after fault condition is removed PROTECTION OVER VOLTAGE 445 ~ 455V 3 ~ 351V 240 ~ 263V 192 ~ 210V 160 ~ 175V 1 ~ 131V 96 ~ 105V Shut down o/p voltage with repower on to recovery OVER TEMPERATURE Shut down and latch off o/p voltage, repower on to recover WORKING TEMP. Tcase=40 ~ 90 (Please refer to "OUTPUT LOAD vs TEMPERATURE" section) MAX. CASE TEMP. Tcase=90 ENVIRONMENT WORKING HUMIDITY ~ 95% RH noncondensing STORAGE TEMP., HUMIDITY 40 ~ 80, 10 ~ 95% RH TEMP. COEFFICIENT VIBRATION ± 0.03%/ (0 ~ 60 ) 10 ~ 500Hz, 5G 12min./1cycle, period for 72min. each along X, Y, Z axes SAFETY STANDARDS UL8750 (type HL ), CSA C22.2 No. 250.1312, IP65 or IP67 approved SAFETY & EMC OTHERS NOTE WITHSTAND VOLTAGE ISOLATION RESISTANCE EMC EMISSION I/PO/P:3.75KVAC I/PFG:2KVAC O/PFG:1.5KVAC I/PO/P, I/PFG, O/PFG:M Ohms / 500VDC / 25 / 70% RH Compliance to FCC Part 15 Subpart B EMC IMMUNITY Compliance to EN6042,3,4,5,6,8,11, EN61547, light industry level ( surge immunity LineEarth 4KV, LineLine 2KV), criteria A MTBF 141.2K hrs min. MILHDBK217F (25 ) DIMENSION 262*90*43.8mm (L*W*H) PACKING 2Kg; 8pcs/17Kg/0.92CUFT
Block Diagram PFC fosc : 45KHz PWM fosc : 50KHz I/P FG EMI FILTER & RECTIFIERS PFC CIRCUIT PFC CONTROL O.L.P. O.T.P. POWER SWITCHING PWM CONTROL RECTIFIERS & FILTER O.L.P. DETECTION CIRCUIT O.V.P. V V DIM DIM (B Type) DRIVING METHODS OF LED MODULE This series works in constant current mode to directly drive the LEDs. Vo(%) Constant Current area In the constant current region, the highest voltage at the output of the driver depends on the configuration of the end systems. Should there be any compatibility issues, please contact MEAN WELL. 50 50 Io (%) Typical output current normalized by rated current (%)
DIMMING OPERATION FG (Green/Yellow) AC/L(Brown) AC/N(Blue) Applying additive 0 ~ 10VDC V V DIM DO NOT connect "DIM to V" Additive Voltage HVGC3 3 in 1 dimming function (for BType) Output constant current level can be adjusted by applying one of the three methodologies between DIM and DIM: 0 ~ 10VDC, or 10V PWM signal or resistance. Direct connecting to LEDs is suggested. It is not suitable to be used with additional drivers. Dimming source current from power supply: μa (typ.) Output current (%) % 90% 80% 70% 60% 50% 40% 30% % 10% 0% 0V 1V 2V 3V 4V 5V 6V 7V 8V 9V 10V Dimming input: Additive voltage V(Red) V(Black) DIM(Blue)* DIM(White)** * DIM for BType PROG for D2Type * *DIM for BType PROG for D2Type Output current (%) % 90% 80% 70% 60% 50% 40% 30% % 10% 0% 0% 10% % 30% 40% 50% 60% 70% 80% 90% % Duty cycle of additive 10V PWM signal dimming input Applying additive resistance: V V DIM DIM Applying additive 10V PWM signal (frequency range Hz ~ 3KHz): V V DIM Additive PWM signal DIM DO NOT connect "DIM to V" DIM DO NOT connect "DIM to V" Additive Resistance Note : 1. Min. dimming level is about 5% and the output current is not defined when 0%< Iout<5%. 2. The output current could drop down to 0% when dimming input is about 0kΩ or 0Vdc, or 10V PWM signal with 0% duty cycle. Output current (%) % 90% 80% 70% 60% 50% 40% 30% % 10% 0% Short 10K/N K/N 30K/N 40K/N 50K/N 60K/N 70K/N 80K/N 90K/N K/N (N=driver quantity for synchronized dimming operation) Dimming input: Additive resistance
Smart timer dimming function (for DxxType by User definition) MEAN WELL Smart timer dimming primarily provides the adaptive proportion dimming profile for the output constant current level to perform up to 14 consecutive hours. 3 dimming profiles hereunder are defined accounting for the most frequently seen applications. If other options may be needed, please contact MEAN WELL for details. Ex : D01Type: the profile recommended for residential lighting Set up for D01Type in Smart timer dimming software program: Dimming Level(%) TIME** LEVEL** T1 T2 06:00 07:00 % 70% T3 11:00 50% T4 70% Operating Time(HH:MM) **: TIME matches Operating Time in the diagram whereas LEVEL matches Dimming Level. Example: If a residential lighting application adopts D01Type, when turning on the power supply at 6:00pm, for instance: [1] The power supply will switch to the constant current level at % starting from 6:00pm. [2] The power supply will switch to the constant current level at 70% in turn, starting from 0:00am, which is 06:00 after the power supply turns on. [3] The power supply will switch to the constant current level at 50% in turn, starting from 1:00am, which is 07:00 after the power supply turns on. [4] The power supply will switch to the constant current level at 70% in turn, starting from 5:00am, which is 11:00 after the power supply turns on. The constant current level remains till 8:00am, which is 14:00 after the power supply turns on. Ex: D02Type: the profile recommended for street lighting Set up for D02Type in Smart timer dimming software program: Dimming Level(%) TIME** LEVEL** T1 01:00 50% T2 03:00 80% T3 T4 T5 8:00 11:00 % 60% 80% Operating Time(HH:MM) **: TIME matches Operating Time in the diagram whereas LEVEL matches Dimming Level. Example: If a street lighting application adopts D02Type, when turning on the power supply at 5:00pm, for instance: [1] The power supply will switch to the constant current level at 50% starting from 5:00pm. [2] The power supply will switch to the constant current level at 80% in turn, starting from 6:00pm, which is 01:00 after the power supply turns on. [3] The power supply will switch to the constant current level at % in turn, starting from 8:00pm, which is 03:00 after the power supply turns on. [4] The power supply will switch to the constant current level at 60% in turn, starting from 1:00am, which is 08:00 after the power supply turns on. [5] The power supply will switch to the constant current level at 80% in turn, starting from 4:00am, which is 11:00 after the power supply turns on. The constant current level remains till 6:30am, which is 14:00 after the power supply turns on.
Ex: D03Type: the profile recommended for tunnel lighting Set up for D03Type in Smart timer dimming software program: Dimming Level(%) T1 T2 T3 TIME** 01:30 11:00 LEVEL** 70% % 70% Operating Time(HH:MM) **: TIME matches Operating Time in the diagram whereas LEVEL matches Dimming Level. Example: If a tunnel lighting application adopts D03Type, when turning on the power supply at 4:30pm, for instance: [1] The power supply will switch to the constant current level at 70% starting from 4:30pm. [2] The power supply will switch to the constant current level at % in turn, starting from 6:00pm, which is 01:30 after the power supply turns on. [3] The power supply will switch to the constant current level at 70% in turn, starting from 5:00am, which is 11:00 after the power supply turns on. The constant current level remains till 6:30am, which is 14:00 after the power supply turns on.
OUTPUT LOAD vs TEMPERATURE 80 60 180VAC 230VAC Above 277VAC 80 60 LOAD (%) 40 LOAD (%) 40 40 25 10 0 15 30 50 55 60 65 70 (HORIZONTAL) 40 25 0 45 55 65 75 90 (HORIZONTAL) AMBIENT TEMPERATURE,Ta ( ) Tcase ( ) LOAD (%) STATIC CHARACTERISTIC 90 80 70 60 50 40 180 347 440 480 528 INPUT VOLTAGE (V) 60Hz PF POWER FACTOR (PF) CHARACTERISTIC Tcase at 80 1.00 0.95 0.90 0.85 0.80 0.75 0.70 0.65 0.60 0.55 0.50 10% % 30% 40% 50% 60% 70% 80% 90% % (3W) LOAD 480VAC 347VAC 277VAC 230VAC THD(%) TOTAL HARMONIC DISTORTION (THD) 700mA Model, Tcase at 80 40 35 30 25 15 10 5 0 10% % 30% 40% 50% 60% 70% 80% 90% % LOAD 480VAC 347VAC 277VAC 230VAC EFFICIENCY(%) EFFICIENCY vs LOAD possess superior working efficiency that up to 93.5% can be reached in field applications. 700mA Model, Tcase at 80 95 90 85 480VAC 347VAC 277VAC 80 230VAC 75 70 10% % 30% 40% 50% 60% 70% 80% 90% % LOAD
LIFE TIME 1 LIFETIME(Kh) 80 60 40 0 30 40 50 60 70 80 90 Tc a s e ( )
MECHANICAL SPECIFICATION AType Case No. 228 Unit:mm 13.4 8.9 262 235.2 17 300± FG (Green/Yellow) AC/L(Brown) AC/N(Blue) STW 18AWG 3C 17 40 90 45 tc 117.6 Io ADJ. ψ4.5 4PL 300± STW 18AWG 2C V(Red) V(Black) tc : Max. Case Temperature 43.8 B/D2Type 13.4 8.9 262 235.2 ψ 4.5 4PL 17 300± FG (Green/Yellow) AC/L(Brown) AC/N(Blue) STW 18AWG 3C 17 40 90 45 tc : Max. Case Temperature tc 117.6 300± STW 18AWG 2C UL2517 22AWG 2C V(Red) V(Black) DIM(Blue)* DIM(White)** * DIM for BType PROG for D2Type * *DIM for BType PROG for D2Type 43.8 INSTALLATION MANUAL Please refer to : http://www.meanwell.com/webnet/search/installationsearch.html
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