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CLG-150-36A
LED Driver, ITE, 151.2 W, 36 VDC, 4.2 A, Constant Current, 90 V
⚠️ Reference pricing provided. In case of supply shortages, we will connect you with our trusted procurement partners to ensure your project's continuity.
- Manufacturer: MEAN WELL
- Product type: AC / DC LED Power Supplies
- Product Range: CLG-150
- Output Current: 4.2A
- LED Driver Mode: Constant Current
- Output Power Max: 151.2W
- Input Voltage Max: 265V
- Input Voltage Min: 90V
- Output Voltage Max: 36VDC
- Power Supply Approvals: ITE
| Delivery and price | |
|---|---|
| Units per pack | 10 |
| Price | 52.08 € |
| Current stock | 10+ |
| Lead time | 30 days |
Datasheet
**CLG - 150 series** ## **IP65 IP67** |**Note.4**<br>**MODEL**<br>**CLG-150-12**<br>**CLG-150-15**<br>**CLG-150-20**<br>**CLG-150-24**<br>**CLG-150-30**<br>**CLG-150-36**<br>**CLG-150-48**<br>**OUTPUT**<br>**Note.6**<br>**Note.5**<br>**FREQUENCY RANGE**<br>**EFFICIENCY (Typ.)**<br>**INPUT**<br>**SAFETY STANDARDS**<br>**Note.7**<br>**VIBRATION**<br>**MTBF**<br>**DIMENSION**<br>**OTHERS**<br>**NOTE**<br>**PACKING**<br>**Note.4**<br>12V<br>15V<br>20V<br>24V<br>30V<br>36V<br>48V<br>11A<br>9.5A<br>7.5A<br>6.3A<br>5A<br>4.2A<br>3.2A<br>132W<br>142.5W<br>150W<br>151.2W<br>150W<br>151.2W<br>153.6W<br>150mVp-p<br>150mVp-p<br>150mVp-p<br>150mVp-p<br>150mVp-p<br>150mVp-p<br>200mVp-p<br>2.0%<br>2.0%<br>2.0%<br>1.0%<br>1.0%<br>1.0%<br>1.0%<br>0.5%<br>0.5%<br>0.5%<br>0.5%<br>0.5%<br>0.5%<br>0.5%<br>1.0%<br>1.0%<br>1.0%<br>0.5%<br>0.5%<br>0.5%<br>0.5%<br>88%<br>88%<br>90%<br>90%<br>91%<br>91%<br>91%<br>0.03%/<br>)<br>)<br>**Note.2**<br>**Note.3**<br>**ENVIRONMENT**<br>**SAFETY &**<br>**EMC**<br>**PROTECTION**<br>100<br>10<br>(RTH2)<br>Po<br>Devomee<br>Cd]<br>CTTCOCSC“‘(SSWCOOCCCCrYCC~COYSCTTTCdSTTCC—S™Y<br>RarepcurReNT,=|]<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY<br>IRATEDPOWER ~~|~~<br>RPPLEANOISE(mx) |<br>S| SS SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY<br>cunnenraosnance /ottdtsbyiensstetonecerthey<br>CURRENTADJ. RANGE<br>irre<br>COCSC*S<br>Re GG<br>GG<br>F<br>____10= 00He, 56 12min Teyle, periodforTarn.eachalongXY.Zaes<br>~~i~~<br>UL8750, CSAC22.2 No. 250.0-08, UL1012, CAN/CSA-C22.2 No. 107.1-01, EN61347-1, EN61347-2-13 independent<br>~~ert.~~<br>pinOE anmeni 00h<br>pt<br>P| 808,7Khesmin, MILHDBK-27F(250<br>fae.26838 8mm(LWHCLG-160-BarKiA) —_220°6ESBEnm(LWHCLETHS)<br>Cd<br>~~SS~~<br>~~ee~~<br>2. Ripple & noise are measured at 20MHz of bandwidth by using a 12" twisted pair-wire terminated with a 0.1uf & 47uf parallel capacitor.<br>3. Tolerance<br>: includes set up tolerance, line regulation and load regulation.<br>4. Constant current operation region is within 75% ~100% rated output voltage. This is the suitable operation region for LED related applications, but please<br>reconfirm special electrical requirements for some specific system design.<br>5. Derating may be needed under low input voltages. Please checkthe static characteristics for more details.<br>6. Type Aand type C only.<br>7. Safety and EMC design refer to EN60598-1, subject 8750(UL), CNS15233, GB7000.1, FCC part18.<br>8. 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<br>complete installation, the final equipment manufacturers must re-qualify EMC Directive on the complete installation again.|**Note.4**<br>**MODEL**<br>**CLG-150-12**<br>**CLG-150-15**<br>**CLG-150-20**<br>**CLG-150-24**<br>**CLG-150-30**<br>**CLG-150-36**<br>**CLG-150-48**<br>**OUTPUT**<br>**Note.6**<br>**Note.5**<br>**FREQUENCY RANGE**<br>**EFFICIENCY (Typ.)**<br>**INPUT**<br>**SAFETY STANDARDS**<br>**Note.7**<br>**VIBRATION**<br>**MTBF**<br>**DIMENSION**<br>**OTHERS**<br>**NOTE**<br>**PACKING**<br>**Note.4**<br>12V<br>15V<br>20V<br>24V<br>30V<br>36V<br>48V<br>11A<br>9.5A<br>7.5A<br>6.3A<br>5A<br>4.2A<br>3.2A<br>132W<br>142.5W<br>150W<br>151.2W<br>150W<br>151.2W<br>153.6W<br>150mVp-p<br>150mVp-p<br>150mVp-p<br>150mVp-p<br>150mVp-p<br>150mVp-p<br>200mVp-p<br>2.0%<br>2.0%<br>2.0%<br>1.0%<br>1.0%<br>1.0%<br>1.0%<br>0.5%<br>0.5%<br>0.5%<br>0.5%<br>0.5%<br>0.5%<br>0.5%<br>1.0%<br>1.0%<br>1.0%<br>0.5%<br>0.5%<br>0.5%<br>0.5%<br>88%<br>88%<br>90%<br>90%<br>91%<br>91%<br>91%<br>0.03%/<br>)<br>)<br>**Note.2**<br>**Note.3**<br>**ENVIRONMENT**<br>**SAFETY &**<br>**EMC**<br>**PROTECTION**<br>100<br>10<br>(RTH2)<br>Po<br>Devomee<br>Cd]<br>CTTCOCSC“‘(SSWCOOCCCCrYCC~COYSCTTTCdSTTCC—S™Y<br>RarepcurReNT,=|]<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY<br>IRATEDPOWER ~~|~~<br>RPPLEANOISE(mx) |<br>S| SS SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY<br>cunnenraosnance /ottdtsbyiensstetonecerthey<br>CURRENTADJ. RANGE<br>irre<br>COCSC*S<br>Re GG<br>GG<br>F<br>____10= 00He, 56 12min Teyle, periodforTarn.eachalongXY.Zaes<br>~~i~~<br>UL8750, CSAC22.2 No. 250.0-08, UL1012, CAN/CSA-C22.2 No. 107.1-01, EN61347-1, EN61347-2-13 independent<br>~~ert.~~<br>pinOE anmeni 00h<br>pt<br>P| 808,7Khesmin, MILHDBK-27F(250<br>fae.26838 8mm(LWHCLG-160-BarKiA) —_220°6ESBEnm(LWHCLETHS)<br>Cd<br>~~SS~~<br>~~ee~~<br>2. Ripple & noise are measured at 20MHz of bandwidth by using a 12" twisted pair-wire terminated with a 0.1uf & 47uf parallel capacitor.<br>3. Tolerance<br>: includes set up tolerance, line regulation and load regulation.<br>4. Constant current operation region is within 75% ~100% rated output voltage. This is the suitable operation region for LED related applications, but please<br>reconfirm special electrical requirements for some specific system design.<br>5. Derating may be needed under low input voltages. Please checkthe static characteristics for more details.<br>6. Type Aand type C only.<br>7. Safety and EMC design refer to EN60598-1, subject 8750(UL), CNS15233, GB7000.1, FCC part18.<br>8. 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<br>complete installation, the final equipment manufacturers must re-qualify EMC Directive on the complete installation again.|**CLG-150-12**<br>Cd]|**CLG-150-15**|**CLG-150-20**|**CLG-150-24**|**CLG-150-30**|**CLG-150-36**|**CLG-150-48**| |---|---|---|---|---|---|---|---|---| ||Po<br>Devomee<br>Cd]|12V<br>Cd]<br>CTTCOCSC“‘(SSWCOOCCCCrYCC~COYSCTTTCdSTTCC—S™Y|15V<br>CTTCOCSC“‘(SSWCOOCCCCrYCC~COYSCTTTCdSTTCC—S™Y|20V<br>CTTCOCSC“‘(SSWCOOCCCCrYCC~COYSCTTTCdSTTCC—S™Y|24V<br>CTTCOCSC“‘(SSWCOOCCCCrYCC~COYSCTTTCdSTTCC—S™Y|30V<br>CTTCOCSC“‘(SSWCOOCCCCrYCC~COYSCTTTCdSTTCC—S™Y|36V<br>CTTCOCSC“‘(SSWCOOCCCCrYCC~COYSCTTTCdSTTCC—S™Y|48V<br>CTTCOCSC“‘(SSWCOOCCCCrYCC~COYSCTTTCdSTTCC—S™Y| ||**Note.4**<br>Devomee<br>Cd]<br>RarepcurReNT,=|]|Cd]<br>CTTCOCSC“‘(SSWCOOCCCCrYCC~COYSCTTTCdSTTCC—S™Y<br>=|]|CTTCOCSC“‘(SSWCOOCCCCrYCC~COYSCTTTCdSTTCC—S™Y<br>=|]|CTTCOCSC“‘(SSWCOOCCCCrYCC~COYSCTTTCdSTTCC—S™Y<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY|CTTCOCSC“‘(SSWCOOCCCCrYCC~COYSCTTTCdSTTCC—S™Y<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY|CTTCOCSC“‘(SSWCOOCCCCrYCC~COYSCTTTCdSTTCC—S™Y<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY|CTTCOCSC“‘(SSWCOOCCCCrYCC~COYSCTTTCdSTTCC—S™Y<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY|CTTCOCSC“‘(SSWCOOCCCCrYCC~COYSCTTTCdSTTCC—S™Y<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY| ||RarepcurReNT,=|]<br>IRATEDPOWER|11A<br>=|]<br>~~|~~|9.5A<br>=|]<br>~~|~~|7.5A<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY<br>~~|~~|6.3A<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY<br>~~|~~|5A<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY<br>~~|~~|4.2A<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY<br>~~|~~|3.2A<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY<br>~~|~~| ||RarepcurReNT,=|]<br>IRATEDPOWER<br>RPPLEANOISE(mx)||132W<br>=|]<br>~~|~~<br>|<br>S||142.5W<br>=|]<br>~~|~~<br>S|SS|150W<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY<br>~~|~~<br>SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY|151.2W<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY<br>~~|~~<br>SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY|150W<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY<br>~~|~~<br>SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY|151.2W<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY<br>~~|~~<br>SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY|153.6W<br>C“—~sSSC“‘(CSCrC~*drSCCSCSCSCSY<br>~~|~~<br>SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY| ||**Note.2**<br>IRATEDPOWER <br>RPPLEANOISE(mx)||150mVp-p<br> ~~|~~<br>|<br>S||150mVp-p<br>~~|~~<br>S|SS|150mVp-p<br>~~|~~<br>SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY|150mVp-p<br>~~|~~<br>SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY|150mVp-p<br>~~|~~<br>SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY|150mVp-p<br>~~|~~<br>SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY|200mVp-p<br>~~|~~<br>SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY| ||**Note.6**<br>RPPLEANOISE(mx) |<br>cunnenraosnance/ottdtsbyiensstetonecer||<br>S|<br>/ottdtsbyiensstetonecer|S| SS <br>/ottdtsbyiensstetonecer|SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY<br>/ottdtsbyiensstetonecerthey|SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY<br>they|SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY|SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY|SCSSC‘“‘;SSTCCTTCCrTTTTCdSSCSCSCSSY| ||cunnenraosnance/ottdtsbyiensstetonecer<br>CURRENTADJ. RANGE|/ottdtsbyiensstetonecerthey||||||| ||**Note.3**<br>cunnenraosnance /ottdtsbyiensstetonecer|2.0%<br>/ottdtsbyiensstetonecer|2.0%<br>/ottdtsbyiensstetonecer|2.0%<br>/ottdtsbyiensstetonecerthey|1.0%<br>they|1.0%|1.0%|1.0%| |||0.5%|0.5%|0.5%|0.5%|0.5%|0.5%|0.5%| |||1.0%|1.0%|1.0%|0.5%|0.5%|0.5%|0.5%| |||||||||| |||||||||| ||**Note.5**<br>irre|irre<br>COCSC*S||||||| ||**FREQUENCY RANGE**<br>irre|irre<br>COCSC*S||||||| ||irre<br>Re|irre<br>COCSC*S<br>GG<br>GG||||||| ||**EFFICIENCY (Typ.)**<br>Re|88%<br>GG|88%<br>GG|90%<br>GG|90%<br>GG|91%<br>GG|91%<br>GG|91%| ||Re|GG<br>GG||||||| |||||||||| |||||||||| ||**Note.4**|||||||| |||||||||| |||||||||| |||100<br>10<br>(RTH2)||||||| |||||||||| |||||||||| |||||||||| ||F<br>____10|0.03%/<br>)<br>____10=00He,5612minTeyle,periodforTarn.eachalongXY.Zaes<br>~~i~~||||||| ||**VIBRATION**<br>F<br>____10|____10=00He,5612minTeyle,periodforTarn.eachalongXY.Zaes<br>~~i~~<br>pinOEanmeni00h<br>pt||||||| ||**SAFETY STANDARDS**<br>**Note.7**<br>F<br>____10<br>~~ert.~~|____10= 00He, 56 12min Teyle, periodforTarn.eachalongXY.Zaes<br>~~i~~<br>UL8750, CSAC22.2 No. 250.0-08, UL1012, CAN/CSA-C22.2 No. 107.1-01, EN61347-1, EN61347-2-13 independent<br>~~ert.~~<br>pinOEanmeni00h<br>pt||||||| ||~~ert.~~|~~ert.~~<br>pinOE anmeni 00h<br>pt||||||| |||||||||| |||||||||| ||P|<br>~~SS~~|P|808,7Khesmin,MILHDBK-27F(250<br>~~SS~~||||||| ||**MTBF**<br>P|<br>fae.<br>~~SS~~|)<br>P|808,7Khesmin,MILHDBK-27F(250<br>fae.268388mm(LWHCLG-160-BarKiA)—_220°6ESBEnm(LWHCLETHS)<br>Cd<br>~~SS~~||||||| ||**DIMENSION**<br>P|<br>fae.<br>~~SS~~|P| 808,7Khesmin, MILHDBK-27F(250<br>fae.268388mm(LWHCLG-160-BarKiA)—_220°6ESBEnm(LWHCLETHS)<br>Cd<br>~~SS~~||||||| ||**PACKING**<br>fae.26838 8mm(LWHCLG-160-BarKiA) —_220°6ESBEnm(LWHCLETHS)<br>Cd<br>~~SS~~<br>~~ee~~<br>2. Ripple & noise are measured at 20MHz of bandwidth by using a 12" twisted pair-wire terminated with a 0.1uf & 47uf parallel capacitor.<br>3. Tolerance<br>: includes set up tolerance, line regulation and load regulation.<br>4. Constant current operation region is within 75% ~100% rated output voltage. This is the suitable operation region for LED related applications, but please<br>reconfirm special electrical requirements for some specific system design.<br>5. Derating may be needed under low input voltages. Please checkthe static characteristics for more details.<br>6. Type Aand type C only.<br>7. Safety and EMC design refer to EN60598-1, subject 8750(UL), CNS15233, GB7000.1, FCC part18.<br>8. 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<br>complete installation, the final equipment manufacturers must re-qualify EMC Directive on the complete installation again.|||||||| **CLG - 150 series** 150W�Single�Output�Switching�Power�Supply **==> picture [551 x 536] intentionally omitted <==** **----- Start of picture text -----**<br> Mechanical�Specification Case�No. 954A Unit:mm<br>Blank:(CLG-150)<br>222.2<br>12 198.2<br>9.6<br>300 20 300 20<br>AC/L(Brown) T case 99.1 +V(Red)<br>AC/N(Blue) -V(Black)<br>FG� (Green/Yellow) SJTW�18AWG 3C SJTW�14AWG 2C<br>4.2 4PL<br>T case:�Max.�Case Temperature.<br>IP67�rated.�Cable�for�I/O�connection.<br>A Type:(CLG-150-_A)<br>222.2<br>12 198.2<br>9.6<br>300 20 Io ADJ. 300 20<br>AC/L(Brown) T case 99.1 +V(Red)<br>AC/N(Blue) -V(Black)<br>FG� (Green/Yellow) SJTW�18AWG 3C SJTW�14AWG 2C<br>Vo ADJ.<br>4.2 4PL<br>T case:�Max.�Case Temperature.<br>34<br>34<br>9.4<br>34.2 68<br>9.4<br>38.8<br>9.4<br>34.2 68<br>9.4<br>38.8<br>**----- End of picture text -----**<br> - IP65�rated.�Output�voltage�and�constant�current�level�can�be�adjusted�through�internal potentiometer. (Can�access�by�removing�the�rubber�stopper�on�the�case.) _File�Name:CLG-150-SPEC 2012-03-12_ **CLG - 150 series** 150W�Single�Output�Switching�Power�Supply ## **B�Type:(CLG-150-_B)** **==> picture [553 x 173] intentionally omitted <==** **----- Start of picture text -----**<br> 222.2<br>12 198.2<br>9.6<br>300 20<br>300 20 SJTW�14AWG 2C<br>AC/L(Brown) T case 99.1 +V(Red)-V(Black)<br>AC/N(Blue) SJTW�18AWG 2C<br>FG� (Green/Yellow) SJTW�18AWG 3C ADJ1(Blue)ADJ2(White)<br>4.2 4PL<br>T case:�Max.�Case Temperature.<br>34<br>9.4<br>34.2 68<br>9.4<br>38.8<br>**----- End of picture text -----**<br> IP67�rated.�Output�constant�current�level�can�be�adjusted�through�output�cable�by�connecting�a�resistor�between ADJ1�and ADJ2. Reference�resistance�value�for�output�current�adjustment�(Typical) |Resistance|Percentageofratedcurrent| |---|---| |Open|Slightly>100%| |4.7K|100%| |620|75%| |82|50%| |Short|Slightly<50%| ## **C�Type:(CLG-150-_C)** **==> picture [493 x 223] intentionally omitted <==** **----- Start of picture text -----**<br> 229<br>15.4 198.2<br>8<br>Io ADJ. AC�Input Terminal�Pin�No.<br>1 Assignment<br>T case 99.1 1<br>I/P 2 O/P Pin�No. Assignment<br>2<br>3 1 FG<br>Vo ADJ. 2 AC/N<br>4.2 4PL 3 AC/L<br>T case:�Max.�Case Temperature. DC�Output Terminal�Pin�No.<br>Assignment<br>Pin�No. Assignment<br>1 +V<br>2 -V<br>Output�voltage�and�constant�current�level�can�be�adjusted�through�internal potentiometer.<br>(Can�access�by�removing�the�rubber�stopper�on�the�case.)<br>9.5<br>7.5<br>34<br>37 68<br>38.8<br>8<br>8<br>**----- End of picture text -----**<br> _File�Name:CLG-150-SPEC 2012-03-12_ **CLG - 150 series** 150W�Single�Output�Switching�Power�Supply ## **Block�Diagram** **==> picture [547 x 339] intentionally omitted <==** **----- Start of picture text -----**<br> Fosc�:�100KHz<br>EMI�FILTER PFC POWER RECTIFIERS +V<br>I/P & CIRCUIT SWITCHING & -V<br>RECTIFIERS FILTER<br>O.L.P. ADJ1<br>ADJ2<br>(B Type)<br>DETECTION<br>FG O.L.P.<br>PWM�&�PFC CIRCUIT<br>PFC<br>CONTROL<br>CONTROL<br>O.V.P.<br>Derating�Curve Static�Characteristics<br>100<br>100 230VAC<br>90<br>80<br>230VAC 80<br>Input�only<br>60 100VAC 70<br>60<br>40<br>50<br>20<br>40<br>-30 -25 -10 0 15 30 50 55 60 70 (HORIZONTAL) 90 100 125 135 145 155 165 175 180 200 230 295<br>AMBIENT�TEMPERATURE�( ) INPUT�VOLTAGE�(V)�60Hz<br>LOAD�(%) LOAD�(%)<br>**----- End of picture text -----**<br> _File�Name:CLG-150-SPEC 2012-03-12_ **CLG - 150 series** 150W�Single�Output�Switching�Power�Supply ## **Power�Factor�Characteristic** ## **Constant�Current�Mode** **==> picture [384 x 394] intentionally omitted <==** **----- Start of picture text -----**<br> 1 .0 0<br>0 .9 8<br>0 .9 6<br>0 .9 4<br>0 .9 2<br>0 .9 0 2 7 7 V a c<br>0 .8 8 2 3 0 V a c<br>0 .8 6 1 1 5 V a c<br>0 .8 4<br>0 .8 2<br>0 .8 0<br>0 .7 8<br>5 0 % 6 0 % 7 0 % 8 0 % 9 0 % 1 0 0 %<br>(150W)<br>LOAD<br>EFFICIENCY vs�LOAD�(48V�Model)<br>CLG-150�series�possess�superior�working�efficiency�that�up�to�91%�can�be�reached�in�field�applications.<br>96<br>92<br>88<br>84<br>277Vac<br>80<br>230Vac<br>76<br>115Vac<br>72<br>68<br>64<br>10% 20% 30% 40% 50% 60% 70% 80% 90% 100%<br>PF<br>EFFICIENCY (%)<br>**----- End of picture text -----**<br> ## **LOAD** ## **DRIVING�METHODS�OF�LED�MODULE** There�are�two�major�kinds�of�LED�drive�method�"direct�drive"�and�"with�LED�driver". A typical�LED�power�supply�may�either�work�in�"constant�voltage�mode�(CV)�or�constant�current�mode�(CC)"�to�drive�the�LEDs. Mean Well's LED power supply with CV+ CC characteristic can be operated at both CV mode [with LED driver, at area (A)] and CC mode [direct drive, at area (B)]. **==> picture [217 x 143] intentionally omitted <==** **----- Start of picture text -----**<br> 100 (B)<br>Constant<br>Current area<br>(A) Constant<br>Voltage area<br>75<br>(max.)<br>(C)<br>Hiccup<br>Protection<br>75 100 Io (%)<br>Vo(%)<br>**----- End of picture text -----**<br> Typical�LED�power�supply�I-V�curve _File�Name:CLG-150-SPEC 2012-03-12_
Updated at February 9, 2023
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