HVGC-320-3500AB

> 320W Constant Current Mode LED Driver **HVGC - 320 series** 

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## **IP65 IP67** ■ 

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* Type “HL” for use in Class _ Ⅰ , Division 2 

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℃ ℃ 

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|sss A IPLevel65 | I 0 adjustable throF u ghnctionbuilt-in potentiometer.<br>| B | IP67__| 3in1 dimming function (0~10Vdc, 10V PWM signal and resistance<br>AB I o adjustable through built-in potentiometer &<br>IP65 | 3 in 4 dimming function (0~10Vdc, 10V PWM signal and resistance)<br>Dx<br>|sds sIP67 Built-in Smart timer dimming function by user request.<br>**----- End of picture text -----**<br>


_File Name:HVGC-320-SPEC   2018-05-29_ 

**HVGC - 320 series** 

320W Constant Current Mode LED Driver 

## **SPECIFICATION** 

|**MODEL**<br>**RATED CURRENT**<br>**RATED POWER**<br>**OUTPUT**<br>**CURRENT ADJ. RANGE**<br>**VOLTAGE RANGE**<br>**Note.3**<br>**FREQUENCY RANGE**<br>**POWER FACTOR (Typ.)**<br>**EFFICIENCY (Typ.)**<br>**AC CURRENT (Typ.)**<br>**INPUT**<br>**INRUSH CURRENT(Typ.)**<br>**LEAKAGE CURRENT**<br>**SAFETY STANDARDS**<br>**WORKING HUMIDITY**<br>**STORAGE TEMP., HUMIDITY**<br>**TEMP. COEFFICIENT**<br>**VIBRATION**<br>**MTBF**<br>**DIMENSION**<br>**OTHERS**<br>**OVER VOLTAGE**<br>**OVER TEMPERATURE**<br>Adjustable for A/AB-Type only (via built-in potentiometer)<br>47 ~ 63Hz<br>1.1A / 347VAC          0.8A / 480VAC<br><0.75mA / 480VAC<br>Compliance to FCC Part 15 Subpart B, EAC TP TC 020<br>Compliance to EN61000-4-2,3,4,5,6,8,11, EN61547, light industry level surge immunity Line-Earth 4KV, Line-Line 2KV , criteria A, EAC TP TC 020<br>(<br>)<br>20 ~ 95% RH non-condensing<br>-40 ~ +80<br>, 10 ~ 95% RH<br>℃<br>±<br>℃<br>℃<br>0.03%/<br>(0 ~ 60<br>)<br>10 ~ 500Hz, 5G 12min./1cycle, period for  72min. each along X, Y, Z axes<br>UL8750 (type”HL”), CSA C22.2 No. 250.13-12, EAC TP TC 004 IP65 or IP67 approved<br>,<br>141.2K hrs min.      MIL-HDBK-217F (25<br>)<br>℃<br>262*90*43.8mm (L*W*H)<br>**ENVIRONMENT**<br>**SAFETY &**<br>**EMC**<br>**PROTECTION**<br>**SHORT CIRCUIT**<br>445 ~ 455V<br>320 ~ 351V<br>160 ~ 175V<br>240 ~ 263V<br>192 ~ 210V<br>120 ~ 131V<br>96 ~ 105V<br>93.5%<br>93.5%<br>93.5%<br>93.5%<br>93.5%<br>93.5%<br>93%<br>350~700mA<br>525~1050mA<br>700~1400mA<br>875~1750mA<br>1050~2100mA<br>1400~2800mA<br>1750~3500mA<br>700mA<br>**HVGC-320-700**<br>**HVGC-320-1050**<br>**HVGC-320-1400**<br>**HVGC-320-1750**<br>**HVGC-320-2100**<br>**HVGC-320-2800**<br>**HVGC-320-3500**<br>214 ~ 428V<br>1050mA<br>152.4 ~ 304.8V<br>2100mA<br>76.2 ~ 152.4V<br>300W<br>320W<br>320W<br>320W<br>320W<br>320W<br>320W<br>2800mA<br>3500mA<br>57 ~ 114.3V<br>45.7 ~ 91.4V<br>1400mA<br>1750mA<br>114.3 ~ 228.6V<br>91.4~182.8V<br>**EMC IMMUNITY**<br>**EMC EMISSION**<br>COLD START 50A(t<br>=920  s measured at 50% I<br>) at 480VAC;<br>width<br>peak<br>Per NEMA 410<br>**TOTAL HARMONIC DISTORTION**<br>**WITHSTAND VOLTAGE**<br>**ISOLATION RESISTANCE**<br>I/P-O/P:3.75KVAC     I/P-FG:2KVAC     O/P-FG:1.5KVAC<br>I/P-O/P, I/P-FG, O/P-FG:100M Ohms / 500VDC / 25<br>/ 70% RH<br>℃<br>**CONSTANT CURRENT REGION Note.2**<br>**PACKING**<br>2Kg; 8pcs/17Kg/0.92CUFT<br>**NOTE**<br>μ<br>**MAX. NO. of PSUs on 16A**<br>**CIRCUIT BREAKER**<br>2 unit(circuit breaker of type B) / 4 units(circuit breaker of type C) at 480VAC<br>Shut down o/p voltage with re-power on to recovery<br>**OPEN CIRCUIT VOLTAGE (max.)** 442V<br>311V<br>234V<br>187V<br>156V<br>118V<br>94V<br>Constant current limiting, recovers automatically after fault condition is removed<br>Shut down and latch off o/p voltage, re-power on to recover<br>℃<br>℃<br>℃<br>℃<br>**WORKING TEMP.**<br>Tcase=-40 ~ +90<br>(Please refer to "OUTPUT LOAD vs TEMPERATURE" section)<br>℃<br>**MAX. CASE TEMP.**<br>Tcase=+90℃<br>PF<br>0.9 /230VAC, PF<br>0.9 /277VAC<br>full load<br>≧<br>≧<br>≧<br>≧<br>8<br>7<br>, PF<br>0.95/347VAC, PF<br>0.93/480VAC @<br>(Please refer to "<br>"<br>)<br>POWER FACTOR (PF) CHARACTERISTIC section<br>THD< 20%(@ load<br>50%/230VAC, 277VAC, 347VAC, @ load<br>60%/480VAC)<br>≧<br>≧<br>(Please refer to “TOTAL HARMONIC DISTORTION (THD)” section)<br>**CURRENT RIPPLE**<br>5.0% max. @rated current<br>**CURRENT TOLERANCE**<br>±5%<br>180 ~ 528VAC          254VDC ~ 747VDC<br>(Please refer to "STATIC CHARACTERISTIC" section)<br>**SET UP TIME**<br>**Note.4** 500ms/230VAC, 347VAC, 480VAC<br>~~GGG~~<br>a<br>QC<br>a ~~sO~~<br>~~GG~~<br>~~Re~~<br>es~~GG~~<br>a<br>a<br>a<br>a<br>ee~~DG~~<br>aa<br>es<br>~~a~~<br>Rs~~|~~<br>a<br>Cea<br>a<br>ee<br>es<br>es<br>a<br>CRa~~ee~~<br>a<br>a<br>~~ee~~<br>1. All parameters NOT specially mentioned are measured at347VAC input, rated current and 25 —_ ofambient temperature.<br>2. Please refer to "DRIVING METHODS OF LED MODULE".<br>3. De-rating may be needed under low input voltages. Please refer to “STATIC CHARACTERISTIC” sections for details.<br>4. Length of set up time is measured at first cold start. Turning ON/OFF the power supply may lead to increase of the set up time.<br>5. The driver is considered as a component that will be operated in combination with final equipment. Since EMC performance will be affected by the<br>complete installation, the final equipment manufacturers must re-qualify EMC Directive on the complete installation again.<br>6. This series meets thetypical life expectancy of>50,000 hours of operationwhenTcase, particularly(©)point (orTMP, per DLC), isabout80<br>or less.<br>7. Please refer to the warranty statement on MEAN WELL's website at http://www.meanwell.com.<br>8. The ambient temperature derating of 3.5<br>/1000m with fanless models and of<br>5<br>/1000m with fan models for operating altitude higher than 2000m(6500ft).|**MODEL**<br>**RATED CURRENT**<br>**RATED POWER**<br>**OUTPUT**<br>**CURRENT ADJ. RANGE**<br>**VOLTAGE RANGE**<br>**Note.3**<br>**FREQUENCY RANGE**<br>**POWER FACTOR (Typ.)**<br>**EFFICIENCY (Typ.)**<br>**AC CURRENT (Typ.)**<br>**INPUT**<br>**INRUSH CURRENT(Typ.)**<br>**LEAKAGE CURRENT**<br>**SAFETY STANDARDS**<br>**WORKING HUMIDITY**<br>**STORAGE TEMP., HUMIDITY**<br>**TEMP. COEFFICIENT**<br>**VIBRATION**<br>**MTBF**<br>**DIMENSION**<br>**OTHERS**<br>**OVER VOLTAGE**<br>**OVER TEMPERATURE**<br>Adjustable for A/AB-Type only (via built-in potentiometer)<br>47 ~ 63Hz<br>1.1A / 347VAC          0.8A / 480VAC<br><0.75mA / 480VAC<br>Compliance to FCC Part 15 Subpart B, EAC TP TC 020<br>Compliance to EN61000-4-2,3,4,5,6,8,11, EN61547, light industry level surge immunity Line-Earth 4KV, Line-Line 2KV , criteria A, EAC TP TC 020<br>(<br>)<br>20 ~ 95% RH non-condensing<br>-40 ~ +80<br>, 10 ~ 95% RH<br>℃<br>±<br>℃<br>℃<br>0.03%/<br>(0 ~ 60<br>)<br>10 ~ 500Hz, 5G 12min./1cycle, period for  72min. each along X, Y, Z axes<br>UL8750 (type”HL”), CSA C22.2 No. 250.13-12, EAC TP TC 004 IP65 or IP67 approved<br>,<br>141.2K hrs min.      MIL-HDBK-217F (25<br>)<br>℃<br>262*90*43.8mm (L*W*H)<br>**ENVIRONMENT**<br>**SAFETY &**<br>**EMC**<br>**PROTECTION**<br>**SHORT CIRCUIT**<br>445 ~ 455V<br>320 ~ 351V<br>160 ~ 175V<br>240 ~ 263V<br>192 ~ 210V<br>120 ~ 131V<br>96 ~ 105V<br>93.5%<br>93.5%<br>93.5%<br>93.5%<br>93.5%<br>93.5%<br>93%<br>350~700mA<br>525~1050mA<br>700~1400mA<br>875~1750mA<br>1050~2100mA<br>1400~2800mA<br>1750~3500mA<br>700mA<br>**HVGC-320-700**<br>**HVGC-320-1050**<br>**HVGC-320-1400**<br>**HVGC-320-1750**<br>**HVGC-320-2100**<br>**HVGC-320-2800**<br>**HVGC-320-3500**<br>214 ~ 428V<br>1050mA<br>152.4 ~ 304.8V<br>2100mA<br>76.2 ~ 152.4V<br>300W<br>320W<br>320W<br>320W<br>320W<br>320W<br>320W<br>2800mA<br>3500mA<br>57 ~ 114.3V<br>45.7 ~ 91.4V<br>1400mA<br>1750mA<br>114.3 ~ 228.6V<br>91.4~182.8V<br>**EMC IMMUNITY**<br>**EMC EMISSION**<br>COLD START 50A(t<br>=920  s measured at 50% I<br>) at 480VAC;<br>width<br>peak<br>Per NEMA 410<br>**TOTAL HARMONIC DISTORTION**<br>**WITHSTAND VOLTAGE**<br>**ISOLATION RESISTANCE**<br>I/P-O/P:3.75KVAC     I/P-FG:2KVAC     O/P-FG:1.5KVAC<br>I/P-O/P, I/P-FG, O/P-FG:100M Ohms / 500VDC / 25<br>/ 70% RH<br>℃<br>**CONSTANT CURRENT REGION Note.2**<br>**PACKING**<br>2Kg; 8pcs/17Kg/0.92CUFT<br>**NOTE**<br>μ<br>**MAX. NO. of PSUs on 16A**<br>**CIRCUIT BREAKER**<br>2 unit(circuit breaker of type B) / 4 units(circuit breaker of type C) at 480VAC<br>Shut down o/p voltage with re-power on to recovery<br>**OPEN CIRCUIT VOLTAGE (max.)** 442V<br>311V<br>234V<br>187V<br>156V<br>118V<br>94V<br>Constant current limiting, recovers automatically after fault condition is removed<br>Shut down and latch off o/p voltage, re-power on to recover<br>℃<br>℃<br>℃<br>℃<br>**WORKING TEMP.**<br>Tcase=-40 ~ +90<br>(Please refer to "OUTPUT LOAD vs TEMPERATURE" section)<br>℃<br>**MAX. CASE TEMP.**<br>Tcase=+90℃<br>PF<br>0.9 /230VAC, PF<br>0.9 /277VAC<br>full load<br>≧<br>≧<br>≧<br>≧<br>8<br>7<br>, PF<br>0.95/347VAC, PF<br>0.93/480VAC @<br>(Please refer to "<br>"<br>)<br>POWER FACTOR (PF) CHARACTERISTIC section<br>THD< 20%(@ load<br>50%/230VAC, 277VAC, 347VAC, @ load<br>60%/480VAC)<br>≧<br>≧<br>(Please refer to “TOTAL HARMONIC DISTORTION (THD)” section)<br>**CURRENT RIPPLE**<br>5.0% max. @rated current<br>**CURRENT TOLERANCE**<br>±5%<br>180 ~ 528VAC          254VDC ~ 747VDC<br>(Please refer to "STATIC CHARACTERISTIC" section)<br>**SET UP TIME**<br>**Note.4** 500ms/230VAC, 347VAC, 480VAC<br>~~GGG~~<br>a<br>QC<br>a ~~sO~~<br>~~GG~~<br>~~Re~~<br>es~~GG~~<br>a<br>a<br>a<br>a<br>ee~~DG~~<br>aa<br>es<br>~~a~~<br>Rs~~|~~<br>a<br>Cea<br>a<br>ee<br>es<br>es<br>a<br>CRa~~ee~~<br>a<br>a<br>~~ee~~<br>1. All parameters NOT specially mentioned are measured at347VAC input, rated current and 25 —_ ofambient temperature.<br>2. Please refer to "DRIVING METHODS OF LED MODULE".<br>3. De-rating may be needed under low input voltages. Please refer to “STATIC CHARACTERISTIC” sections for details.<br>4. Length of set up time is measured at first cold start. Turning ON/OFF the power supply may lead to increase of the set up time.<br>5. The driver is considered as a component that will be operated in combination with final equipment. Since EMC performance will be affected by the<br>complete installation, the final equipment manufacturers must re-qualify EMC Directive on the complete installation again.<br>6. This series meets thetypical life expectancy of>50,000 hours of operationwhenTcase, particularly(©)point (orTMP, per DLC), isabout80<br>or less.<br>7. Please refer to the warranty statement on MEAN WELL's website at http://www.meanwell.com.<br>8. The ambient temperature derating of 3.5<br>/1000m with fanless models and of<br>5<br>/1000m with fan models for operating altitude higher than 2000m(6500ft).|**HVGC-320-700**|**HVGC-320-1050**|**HVGC-320-1400**|**HVGC-320-1750**|**HVGC-320-2100**|**HVGC-320-2800**|**HVGC-320-3500**|
|---|---|---|---|---|---|---|---|---|
||**RATED CURRENT**<br>~~GGG~~|700mA<br>~~GGG~~|1050mA<br>~~GGG~~|1400mA<br>~~GGG~~|1750mA<br>~~GGG~~|2100mA<br>~~GGG~~|2800mA<br>~~GGG~~|3500mA<br>~~GGG~~|
||**RATED POWER**<br>~~GGG~~<br>a|300W<br>~~GGG~~<br>QC|320W<br>~~GGG~~<br>QC|320W<br>~~GGG~~<br>QC|320W<br>~~GGG~~|320W<br>~~GGG~~|320W<br>~~GGG~~|320W<br>~~GGG~~|
||**CONSTANT CURRENT REGION Note.2**<br>a<br>a|214 ~ 428V<br>QC<br>~~sO~~|152.4 ~ 304.8V<br>QC<br>~~sO~~|114.3 ~ 228.6V<br>QC<br>~~sO~~|91.4~182.8V<br>~~sO~~|76.2 ~ 152.4V<br>~~sO~~|57 ~ 114.3V<br>~~sO~~|45.7 ~ 91.4V<br>~~sO~~|
||**OPEN CIRCUIT VOLTAGE (max.)** <br>a <br>~~GG~~|442V<br> ~~sO~~<br>~~GG~~|311V<br>~~sO~~<br>~~GG~~|234V<br>~~sO~~<br>~~GG~~|187V<br>~~sO~~<br>~~GG~~|156V<br>~~sO~~<br>~~GG~~|118V<br>~~sO~~<br>~~GG~~|94V<br>~~sO~~<br>~~GG~~|
||**CURRENT ADJ. RANGE**<br>~~GG~~<br>a|Adjustable for A/AB-Type only (via built-in potentiometer)<br>350~700mA<br>525~1050mA<br>700~1400mA<br>875~1750mA<br>1050~2100mA<br>1400~2800mA<br>1750~3500mA<br>~~GG~~<br>~~Re~~<br>es~~GG~~|||||||
||**CURRENT RIPPLE**<br>a|5.0% max. @rated current<br>es~~GG~~|||||||
||**CURRENT TOLERANCE**<br>a<br>a|±5%<br>es~~GG~~|||||||
||**SET UP TIME**<br>**Note.4** <br>a<br>a|500ms/230VAC, 347VAC, 480VAC|||||||
||**VOLTAGE RANGE**<br>**Note.3**|180 ~ 528VAC          254VDC ~ 747VDC<br>(Please refer to "STATIC CHARACTERISTIC" section)|||||||
||**FREQUENCY RANGE**<br>a|47 ~ 63Hz|||||||
||**POWER FACTOR (Typ.)**<br>a|PF<br>0.9 /230VAC, PF<br>0.9 /277VAC<br>full load<br>≧<br>≧<br>≧<br>≧<br>8<br>7<br>, PF<br>0.95/347VAC, PF<br>0.93/480VAC @<br>(Please refer to "<br>"<br>)<br>POWER FACTOR (PF) CHARACTERISTIC section|||||||
||**TOTAL HARMONIC DISTORTION**<br>ee|THD< 20%(@ load<br>50%/230VAC, 277VAC, 347VAC, @ load<br>60%/480VAC)<br>≧<br>≧<br>(Please refer to “TOTAL HARMONIC DISTORTION (THD)” section)<br>~~DG~~|||||||
||**EFFICIENCY (Typ.)**<br>ee<br>a|93.5%<br>~~DG~~|93.5%<br>~~DG~~|93.5%<br>~~DG~~|93.5%<br>~~DG~~|93.5%<br>~~DG~~|93.5%<br>~~DG~~|93%<br>~~DG~~|
||**AC CURRENT (Typ.)**<br>ee<br>a|1.1A / 347VAC          0.8A / 480VAC<br>~~DG~~|||||||
||**INRUSH CURRENT(Typ.)**<br>aa|COLD START 50A(t<br>=920  s measured at 50% I<br>) at 480VAC;<br>width<br>peak<br>Per NEMA 410<br>μ|||||||
||**MAX. NO. of PSUs on 16A**<br>**CIRCUIT BREAKER**<br>es|2 unit(circuit breaker of type B) / 4 units(circuit breaker of type C) at 480VAC|||||||
||**LEAKAGE CURRENT**<br>es|<0.75mA / 480VAC|||||||
||**SHORT CIRCUIT**<br>es<br>~~a~~<br>|Constant current limiting, recovers automatically after fault condition is removed<br>Rs|||||||
||**OVER VOLTAGE**<br>~~a~~<br>~~|~~<br>a|445 ~ 455V<br>320 ~ 351V<br>160 ~ 175V<br>240 ~ 263V<br>192 ~ 210V<br>120 ~ 131V<br>96 ~ 105V<br>Shut down o/p voltage with re-power on to recovery<br>Rs~~|~~|||||||
||**OVER TEMPERATURE**<br>~~|~~<br>a<br>Ce|Shut down and latch off o/p voltage, re-power on to recover<br>~~|~~|||||||
||**WORKING TEMP.**<br>~~|~~<br>a<br>Cea|Tcase=-40 ~ +90<br>(Please refer to "OUTPUT LOAD vs TEMPERATURE" section)<br>℃<br>~~|~~|||||||
||**MAX. CASE TEMP.**<br>Cea<br>a|Tcase=+90℃|||||||
||**WORKING HUMIDITY**<br>a<br>a<br>ee|20 ~ 95% RH non-condensing|||||||
||**STORAGE TEMP., HUMIDITY**<br>ee<br>es|-40 ~ +80<br>, 10 ~ 95% RH<br>℃|||||||
||**TEMP. COEFFICIENT**<br>ee<br>es<br>es|±<br>℃<br>℃<br>0.03%/<br>(0 ~ 60<br>)|||||||
||**VIBRATION**<br>es<br>es|10 ~ 500Hz, 5G 12min./1cycle, period for  72min. each along X, Y, Z axes|||||||
||**SAFETY STANDARDS**<br>es<br>a<br>CR|UL8750 (type”HL”), CSA C22.2 No. 250.13-12, EAC TP TC 004 IP65 or IP67 approved<br>,<br>|||||||
||**WITHSTAND VOLTAGE**<br>a<br>CR|I/P-O/P:3.75KVAC     I/P-FG:2KVAC     O/P-FG:1.5KVAC<br>|||||||
||**ISOLATION RESISTANCE**<br>CRa|I/P-O/P, I/P-FG, O/P-FG:100M Ohms / 500VDC / 25<br>/ 70% RH<br>℃<br>|||||||
||**EMC EMISSION**<br>a~~ee~~|Compliance to FCC Part 15 Subpart B, EAC TP TC 020<br>~~ee~~|||||||
||**EMC IMMUNITY**|Compliance to EN61000-4-2,3,4,5,6,8,11, EN61547, light industry level surge immunity Line-Earth 4KV, Line-Line 2KV , criteria A, EAC TP TC 020<br>(<br>)|||||||
||**MTBF**<br>a|141.2K hrs min.      MIL-HDBK-217F (25<br>)<br>℃|||||||
||**DIMENSION**<br>a|262*90*43.8mm (L*W*H)|||||||
||**PACKING**<br>2Kg; 8pcs/17Kg/0.92CUFT<br>℃<br>℃<br>℃<br>℃<br>~~ee~~<br>1. All parameters NOT specially mentioned are measured at347VAC input, rated current and 25 —_ ofambient temperature.<br>2. Please refer to "DRIVING METHODS OF LED MODULE".<br>3. De-rating may be needed under low input voltages. Please refer to “STATIC CHARACTERISTIC” sections for details.<br>4. Length of set up time is measured at first cold start. Turning ON/OFF the power supply may lead to increase of the set up time.<br>5. The driver is considered as a component that will be operated in combination with final equipment. Since EMC performance will be affected by the<br>complete installation, the final equipment manufacturers must re-qualify EMC Directive on the complete installation again.<br>6. This series meets thetypical life expectancy of>50,000 hours of operationwhenTcase, particularly(©)point (orTMP, per DLC), isabout80<br>or less.<br>7. Please refer to the warranty statement on MEAN WELL's website at http://www.meanwell.com.<br>8. The ambient temperature derating of 3.5<br>/1000m with fanless models and of<br>5<br>/1000m with fan models for operating altitude higher than 2000m(6500ft).||||||||



_File Name:HVGC-320-SPEC   2018-05-29_ 

**HVGC - 320 series** 

## 320W Constant Current Mode LED Driver 

## **Block Diagram** 

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PFC fosc : 45KHz<br>PWM fosc : 50KHz<br>EMI FILTER PFC POWER RECTIFIERS +V<br>I/P & CIRCUIT SWITCHING & -V<br>RECTIFIERS FILTER<br>O.L.P. DIM+<br>DIM-<br>(B Type)<br>DETECTION<br>FG O.L.P.<br>PWM CIRCUIT<br>PFC CONTROL<br>CONTROL<br>O.T.P. O.V.P.<br>**----- End of picture text -----**<br>


## **DRIVING METHODS OF LED MODULE** 

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※ This series works in constant current mode to directly drive the LEDs.<br>In the constant current region, the highest voltage at the output of the driver<br>100<br>depends on the configuration of the end systems.<br>Should there be any compatibility issues, please contact MEAN WELL.<br>Constant<br>Current area<br>50<br>50 100 Io (%)<br>Typical output current normalized by rated current (%)<br>Vo(%)<br>**----- End of picture text -----**<br>


_File Name:HVGC-320-SPEC   2018-05-29_ 

**HVGC - 320 series** 

## 320W Constant Current Mode LED Driver 

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DIMMING OPERATION<br>AC/L(Brown)FG   (Green/Yellow) HVGC-320 +V(Red)-V(Black)<br>AC/N(Blue)<br>DIM+(Blue)*<br>DIM-(White)**<br>* DIM+ for B/AB-Type<br>PROG+ for D2-Type<br>※  3 in 1 dimming function (for B/AB-Type) * *DIM- for B/AB-Type<br>�Output constant current level can be adjusted by applying one of the three methodologies between DIM+ and DIM-: PROG- for D2-Type<br>0 ~ 10VDC, or 10V PWM signal or resistance.<br>�Direct connecting to LEDs is suggested. It is not suitable to be used with additional drivers.<br>�Dimming source current from power supply: 100μA (typ.)<br>◎ Applying additive 0 ~ 10VDC 100%<br>90%<br>80%<br>+<br>+V + 70%<br>60%<br>-<br>-V - 50%<br>DIM+ 40%<br>+<br>Additive Voltage 30%<br>- 20%<br>DIM-<br>10%<br>“DO NOT connect "DIM- to -V"DO NOT connect "DIM- to -V" 0%<br>Output current (%)<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
Applying additive 0 ~ 10VDC 100%<br>90%<br>80%<br>+<br>+V + 70%<br>60%<br>-<br>-V - 50%<br>DIM+ 40%<br>+<br>Additive Voltage 30%<br>- 20%<br>DIM-<br>10%<br>“DO NOT connect "DIM- to -V"DO NOT connect "DIM- to -V" 0%<br>0V 1V 2V 3V 4V 5V 6V 7V 8V 9V 10V<br>Dimming input: Additive voltage<br>◎ Applying additive 10V PWM signal (frequency range 100Hz ~ 3KHz): 100%<br>90%<br>80%<br>+<br>+V + 70%<br>60%<br>-<br>-V - 50%<br>DIM+ 40%<br>Additive PWM signal 30%<br>20%<br>DIM-<br>10%<br>“DO NOT connect "DIM- to -V" 0%<br>0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100%<br>Duty cycle of additive 10V PWM signal dimming input<br>◎ Applying additive resistance: 100%<br>90%<br>+V + + 80%<br>70%<br>-<br>-V - 60%<br>DIM+ 50%<br>40%<br>Additive Resistance<br>30%<br>DIM- 20%<br>“DO NOT connect "DIM- to -V" 10%<br>0%<br>Short 10K/N 20K/N 30K/N 40K/N 50K/N 60K/N 70K/N 80K/N 90K/N 100K/N<br>(N=driver quantity for synchronized dimming operation)<br>Dimming input: Additive resistance<br>Note : 1. Min. dimming level is about 5% and the output current is not defined when 0%< Iout<5%.<br>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.<br>Output current (%)<br>Output current (%)<br>Output current (%)<br>**----- End of picture text -----**<br>


_File Name:HVGC-320-SPEC   2018-05-29_ 

**HVGC - 320 series** 

320W Constant Current Mode LED Driver 

※ **Smart timer dimming function (for Dxx-Type  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. 

**==> picture [209 x 9] intentionally omitted <==**

**----- Start of picture text -----**<br>
Ex : ◎ D01-Type: the profile recommended for residential lighting<br>**----- End of picture text -----**<br>


**==> picture [198 x 75] intentionally omitted <==**

**----- Start of picture text -----**<br>
Set up for D01-Type in Smart timer dimming software program:<br>T1 T2 T3 T4<br>TIME** 06:00 07:00 11:00 ---<br>LEVEL** 100% 70% 50% 70%<br>**----- End of picture text -----**<br>


- 60 TIME** 06:00 07:00 

- 50 40 LEVEL** 100% 70% 30 20 10 0 00:00 02:00 04:00 06:00 08:00 10:00 12:00 14:00 Operating Time(HH:MM) 

- **: TIME matches Operating Time in the diagram whereas LEVEL matches Dimming Level. Example: If a residential lighting application adopts D01-Type, when turning on the power supply at 6:00pm, for instance: 

- [1] The power supply will switch to the constant current level at 100% 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. 

**==> picture [367 x 205] intentionally omitted <==**

**----- Start of picture text -----**<br>
Ex: ◎ D02-Type: the profile recommended for street lighting<br>100<br>90<br>60<br>70 T1 T2<br>60<br>TIME** 01:00 03:00<br>50<br>40 LEVEL** 50% 80%<br>30<br>20<br>10<br>tt]<br>00:00 02:00 04:00 05:00 08:00 10:00 1200 14:00<br>Operating Time(HH:MM)<br>**: TIME matches Operating Time in the diagram whereas LEVEL matches Dimming Level.<br>Example: If a street lighting application adopts D02-Type, when turning on the power supply at 5:00pm, for instance:<br>Dimming Level(%)<br>**----- End of picture text -----**<br>


**==> picture [219 x 75] intentionally omitted <==**

**----- Start of picture text -----**<br>
Set up for D02-Type in Smart timer dimming software program:<br>T1 T2 T3 T4 T5<br>TIME** 01:00 03:00 8:00 11:00 ---<br>LEVEL** 50% 80% 100% 60% 80%<br>**----- End of picture text -----**<br>


- [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 100% 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. 

_File Name:HVGC-320-SPEC   2018-05-29_ 

**HVGC - 320 series** 

## 320W Constant Current Mode LED Driver 

|Ex:|◎|D03-Type: the profile recommended for tunnel lighting|D03-Type: the profile recommended for tunnel lighting|D03-Type: the profile recommended for tunnel lighting|D03-Type: the profile recommended for tunnel lighting|D03-Type: the profile recommended for tunnel lighting|D03-Type: the profile recommended for tunnel lighting|D03-Type: the profile recommended for tunnel lighting||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
||100<br>al<br>x|||||||||<br>||||Set up for D03-Type in Smart timer dimming software program:||||||
|Dimming Level(%)||70<br>60<br>50<br>40<br>30|||||||||TIME**<br>LEVEL**|01:30<br>T1<br>70%|T2<br>11:00<br>100%|T3<br>---<br>70%||
|||20||||||||||||||
|||10||||||||||||||
|||0||||||||||||||
|||00:00|02:00|04:00|06:00|08:00|10:00|12:00|14:00|||||||
||||||Operating Time(HH:MM)|Operating Time(HH:MM)||||||||||



**: TIME matches Operating Time in the diagram whereas LEVEL matches Dimming Level. Example: If a tunnel lighting application adopts D03-Type, 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 100% 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. 

_File Name:HVGC-320-SPEC   2018-05-29_ 

**HVGC - 320 series** 

320W Constant Current Mode LED Driver 

## **OUTPUT LOAD vs TEMPERATURE(Note.7)** 

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**----- Start of picture text -----**<br>
100 100<br>80 180VAC 80<br>230VAC<br>60 60<br>Above 277VAC<br>40 40<br>20 20<br>-40 -25 -10 0 15 30 50 55 60 65 70 (HORIZONTAL) -40 -25 0 20 45 55 65 75 90 (HORIZONTAL)<br>AMBIENT TEMPERATURE,Ta ( ℃ ) Tcase ( ℃ )<br>STATIC CHARACTERISTIC POWER FACTOR (PF) CHARACTERISTIC<br>※ Tcase at 80℃<br>1.00<br>100<br>0.95<br>90 0.90<br>0.85<br>80 0.80<br>480VAC<br>0.75<br>70<br>347VAC<br>0.70<br>60 0.65 277VAC<br>50 0.60 230VAC<br>0.55<br>40 0.50<br>10% 20% 30% 40% 50% 60% 70% 80% 90% 100%<br>180 347 440 480 528 (320W)<br>LOAD<br>INPUT VOLTAGE (V) 60Hz<br>TOTAL HARMONIC DISTORTION (THD) EFFICIENCY vs LOAD<br>HVGC-320 series possess superior working efficiency that up to 93.5% can<br>※ 700mA Model, Tcase at 80℃ be reached in field applications.<br>※ 700mA Model, Tcase at 80℃<br>40<br>100<br>35<br>30 480VAC 95<br>347VAC<br>25 90<br>480VAC<br>277VAC<br>20<br>347VAC<br>230VAC 85<br>15 277VAC<br>10 80 230VAC<br>5 75<br>0<br>10% 20% 30% 40% 50% 60% 70% 80% 90% 100% 70<br>10% 20% 30% 40% 50% 60% 70% 80% 90% 100%<br>LOAD LOAD<br>LOAD (%) LOAD (%)<br>PF<br>LOAD (%)<br>THD(%)<br>EFFICIENCY(%)<br>**----- End of picture text -----**<br>


HVGC-320 series possess superior working efficiency that up to 93.5% can be reached in field applications. 

_File Name:HVGC-320-SPEC   2018-05-29_ 

**HVGC - 320 series** 

320W Constant Current Mode LED Driver 

## **LIFE TIME** 

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**----- Start of picture text -----**<br>
120<br>100<br>80<br>60<br>40<br>20<br>0<br>20 30 40 50 60 70 80 90<br>Tcase (℃ )<br>LIFETIME(Kh)<br>**----- End of picture text -----**<br>


_File Name:HVGC-320-SPEC   2018-05-29_ 

## 320W Constant Current Mode LED Driver 

## **HVGC - 320 series** 

|320WConstant Current Mode LED Driver<br>**HVGC-320 series**|320WConstant Current Mode LED Driver<br>**HVGC-320 series**|320WConstant Current Mode LED Driver<br>**HVGC-320 series**|320WConstant Current Mode LED Driver<br>**HVGC-320 series**|320WConstant Current Mode LED Driver<br>**HVGC-320 series**|320WConstant Current Mode LED Driver<br>**HVGC-320 series**|320WConstant Current Mode LED Driver<br>**HVGC-320 series**|320WConstant Current Mode LED Driver<br>**HVGC-320 series**|320WConstant Current Mode LED Driver<br>**HVGC-320 series**|320WConstant Current Mode LED Driver<br>**HVGC-320 series**|320WConstant Current Mode LED Driver<br>**HVGC-320 series**|320WConstant Current Mode LED Driver<br>**HVGC-320 series**|320WConstant Current Mode LED Driver<br>**HVGC-320 series**|320WConstant Current Mode LED Driver<br>**HVGC-320 series**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|||||||||||||||
||**MECHANICAL SPECIFICATION**||||||||||262||Case No. 228           Unit:mm<br>STW 18AWG<br>2C<br>×<br>STW 18AWG<br>2C<br>×<br>300<br>20<br>±<br>300<br>20<br>±<br>-V(Black)<br>-V(Black)<br>+V(Red)<br>+V(Red)<br>ψ4.5 4PL<br>×<br>43.8<br>DIM-(White)<br>DIM+(Blue)<br>UL2517 22AWG<br>2C<br>×<br>43.8<br>ψ<br>×<br>4.5 4PL<br>STW 18AWG<br>2C<br>×<br>300<br>20<br>±<br>-V(Black)<br>+V(Red)<br>DIM-(White)**<br>DIM+(Blue)*<br>UL2517 22AWG<br>2C<br>×<br>43.8<br>ψ<br>×<br>4.5 4PL<br>* DIM+ for B-Type<br>PROG+ for D2-Type<br>* *DIM- for B-Type<br>PROG- for D2-Type|
|※**AB-Type**<br>※**A-Type**<br>17<br>17<br>FG (Green/Yellow)<br>AC/L(Brown)<br>AC/N(Blue)<br>STW 18AWG<br>3C<br>×<br>300<br>20<br>±<br>FG (Green/Yellow)<br>AC/L(Brown)<br>AC/N(Blue)<br>STW 18AWG<br>3C<br>×<br>300<br>20<br>±<br>※**B/D2-Type**<br>17<br>FG (Green/Yellow)<br>AC/L(Brown)<br>AC/N(Blue)<br>STW 18AWG<br>3C<br>×<br>300<br>20<br>±|||17<br>300<br>20<br>±|||||||||||
||||||13.4||||||235.2|||
||||||8.9|||||||||
|||||||||||||||
|||||||40|90||||tc<br>117.6<br>45<br>Io<br>ADJ.|||
||||STW 18AWG<br>3C<br>×|||17||||||||
|||||||||||||||
|||||||||||||||
|||||||�<br>: Max. Case Temperature<br>tc||||||||
||||||||||||||43.8|
|||||||||||||||
|||||||||||262||||
||||||13.4|||||235.2||||
||||||8.9|||||||||
|||||||||||||||
|||||||40|90|||tc<br>117.6<br>5<br>Io<br>ADJ.||||
||||STW 18AWG<br>3C<br>×|||17||||4||||
|||||||||||||||
|||||||�<br>: Max. Case Temperature<br>tc||||||||
||||||||||||||43.8|
|||||||||||||||
|||||||||||262||||
||||||13.4|||||235.2||||
||||||8.9|||||||||
|||||||||||||||
|||||||40|90|||tc<br>117.6<br>5||||
||||STW 18AWG<br>3C<br>×|||17||||4||||
|||||||||||||||
|||||||�<br>: Max. Case Temperature<br>tc||||||||
||||||||||||||43.8|
|||||||||||||||
|Please refer to : http://www.meanwell.com/manual.html<br>**INSTALLATION MANUAL**||||||||||||||



## **INSTALLATION MANUAL** 

Please refer to : http://www.meanwell.com/manual.html 

_File Name:HVGC-320-SPEC   2018-05-29_