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PLN-60-24
LED Driver, ITE, 60 W, 24 VDC, 2.5 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
- Output Current: 2.5A
- LED Driver Mode: Constant Current
- Output Power Max: 60W
- Input Voltage Max: 295V
- Input Voltage Min: 90V
- Output Voltage Max: 24VDC
- Power Supply Approvals: ITE
| Delivery and price | |
|---|---|
| Units per pack | 10 |
| Price | 68.22 € |
| Current stock | 10+ |
| Lead time | 30 days |
Datasheet
**- PLN 60 series** |**MODEL**<br>**PLN-60-12**<br>**PLN-60-15**<br>**PLN-60-20**<br>**PLN-60-24**<br>**PLN-60-27**<br>**PLN-60-36**<br>**PLN-60-48**<br>**OUTPUT**<br>**Note.5**<br>**Note.5**<br>**SETUP TIME**<br>**Note.4**<br>**FREQUENCY RANGE**<br>**EFFICIENCY (Typ.)**<br>**INPUT**<br>**VIBRATION**<br>**MTBF**<br>**DIMENSION**<br>**OTHERS**<br>**NOTE**<br>**PACKING**<br>12V<br>15V<br>20V<br>24V<br>27V<br>36V<br>48V<br>5A<br>4A<br>3A<br>2.5A<br>2.3A<br>1.7A<br>1.3A<br>60W<br>60W<br>60W<br>60W<br>62.1W<br>61.2W<br>62.4W<br>2Vp-p<br>2.4Vp-p<br>1.8Vp-p<br>2.7Vp-p<br>2.7Vp-p<br>3.6Vp-p<br>4.6Vp-p<br>10%<br>3.0%<br>5.0%<br>85%<br>86%<br>87.5%<br>87%<br>88%<br>89%<br>89%<br>0.3A/277VAC<br>40A/230VAC<br>0.03%/<br>)<br>)<br>**Note.2**<br>**Note.3**<br>**ENVIRONMENT**<br>**SAFETY &**<br>**EMC**<br>**PROTECTION**<br>95<br>10<br>**SAFETY STANDARDS**<br>EN55015,<br>**Note.6**<br>~~es~~<br>~~es~~Ge ~~se~~<br>Devoe,<br>TCC~“~*~*sSCSC“(‘;CCr.C“C;C;tSYCTCS;C;™tS~SYSCCS~S<br>RavevcurreNT.<br>||<br>Cd<br>CSC‘“(SC*ésS<br>RateppoweR<br>||<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’<br>RPPLEBNOE(mex) |<br>|<br>CdSCOC~—C—CSSOC‘C‘C<br>votrcexnyamce (EEO<br>[es-tea [essay ay ay asaya |<br>VOLTAGE<br>ADJ. RANGE<br>=<br>=<br>=<br>—__—* 800s /250VAC S00OnsI EACatHNg<br>~~a~~<br>———CC“(N.CWCWCdCS<br>seOG<br>INRUSHCURRENT(max)<br>|<br>10 5002,26 12min.IMoycle, periodfor 72min.eachalongX.YZaxes<br>UL879, UL1310, UL8750, CSAC22.2 No. 207-M89(except for 48V), TUV EN61347-1, EN61347-2-13 independent, CAN/CSA<br>€22.2 No. 223-M91(except for48V), CSAC22.2 No. 250.0-08(exceptfor48V), IP64, J61347-1, J61347-2-13 approved ; design refertoUL60950-1<br>|EMCEMISSION<br>|Complianceto__—_—_—EN55022 (CISPR22) ClassB,EN61000-3-2ClassC(=75%load);EN61000-3-3<br>«ASTaKhrsmin. MILHDBK2ITFQ5C<br>—<br>erenscimmawh<br>OO—SSC“S*“S™S*™*™S~S™S<br>Pasig ztpesitakgoSOUT<br>SSCSCSCSCSC~sdY<br>~~2~~<br>ee<br>2.<br>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: includes set up tolerance, line regulation and load regulation.<br>4. Derating may be needed under low input voltage. Please check the static characteristics for more details.<br>5. Output voltage can be adjusted through the SVR1 on the PCB; limit of output constant current level can be adjusted through theSVR2 on the PCB.<br>6. Constant current operation region is within 70% ~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>7. 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.<br>8. Direct connecting to LEDs is suggested, but is not suitable for using additional drivers.|**MODEL**<br>**PLN-60-12**<br>**PLN-60-15**<br>**PLN-60-20**<br>**PLN-60-24**<br>**PLN-60-27**<br>**PLN-60-36**<br>**PLN-60-48**<br>**OUTPUT**<br>**Note.5**<br>**Note.5**<br>**SETUP TIME**<br>**Note.4**<br>**FREQUENCY RANGE**<br>**EFFICIENCY (Typ.)**<br>**INPUT**<br>**VIBRATION**<br>**MTBF**<br>**DIMENSION**<br>**OTHERS**<br>**NOTE**<br>**PACKING**<br>12V<br>15V<br>20V<br>24V<br>27V<br>36V<br>48V<br>5A<br>4A<br>3A<br>2.5A<br>2.3A<br>1.7A<br>1.3A<br>60W<br>60W<br>60W<br>60W<br>62.1W<br>61.2W<br>62.4W<br>2Vp-p<br>2.4Vp-p<br>1.8Vp-p<br>2.7Vp-p<br>2.7Vp-p<br>3.6Vp-p<br>4.6Vp-p<br>10%<br>3.0%<br>5.0%<br>85%<br>86%<br>87.5%<br>87%<br>88%<br>89%<br>89%<br>0.3A/277VAC<br>40A/230VAC<br>0.03%/<br>)<br>)<br>**Note.2**<br>**Note.3**<br>**ENVIRONMENT**<br>**SAFETY &**<br>**EMC**<br>**PROTECTION**<br>95<br>10<br>**SAFETY STANDARDS**<br>EN55015,<br>**Note.6**<br>~~es~~<br>~~es~~Ge ~~se~~<br>Devoe,<br>TCC~“~*~*sSCSC“(‘;CCr.C“C;C;tSYCTCS;C;™tS~SYSCCS~S<br>RavevcurreNT.<br>||<br>Cd<br>CSC‘“(SC*ésS<br>RateppoweR<br>||<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’<br>RPPLEBNOE(mex) |<br>|<br>CdSCOC~—C—CSSOC‘C‘C<br>votrcexnyamce (EEO<br>[es-tea [essay ay ay asaya |<br>VOLTAGE<br>ADJ. RANGE<br>=<br>=<br>=<br>—__—* 800s /250VAC S00OnsI EACatHNg<br>~~a~~<br>———CC“(N.CWCWCdCS<br>seOG<br>INRUSHCURRENT(max)<br>|<br>10 5002,26 12min.IMoycle, periodfor 72min.eachalongX.YZaxes<br>UL879, UL1310, UL8750, CSAC22.2 No. 207-M89(except for 48V), TUV EN61347-1, EN61347-2-13 independent, CAN/CSA<br>€22.2 No. 223-M91(except for48V), CSAC22.2 No. 250.0-08(exceptfor48V), IP64, J61347-1, J61347-2-13 approved ; design refertoUL60950-1<br>|EMCEMISSION<br>|Complianceto__—_—_—EN55022 (CISPR22) ClassB,EN61000-3-2ClassC(=75%load);EN61000-3-3<br>«ASTaKhrsmin. MILHDBK2ITFQ5C<br>—<br>erenscimmawh<br>OO—SSC“S*“S™S*™*™S~S™S<br>Pasig ztpesitakgoSOUT<br>SSCSCSCSCSC~sdY<br>~~2~~<br>ee<br>2.<br>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: includes set up tolerance, line regulation and load regulation.<br>4. Derating may be needed under low input voltage. Please check the static characteristics for more details.<br>5. Output voltage can be adjusted through the SVR1 on the PCB; limit of output constant current level can be adjusted through theSVR2 on the PCB.<br>6. Constant current operation region is within 70% ~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>7. 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.<br>8. Direct connecting to LEDs is suggested, but is not suitable for using additional drivers.|**PLN-60-12**<br>~~es~~<br>~~es~~<br>Devoe,|**PLN-60-15**<br>~~es~~<br>~~es~~|**PLN-60-20**<br>~~es~~<br>Ge|**PLN-60-24**<br>~~es~~<br>~~se~~|**PLN-60-27**<br>~~es~~<br>~~se~~|**PLN-60-36**<br>~~es~~<br>~~se~~|**PLN-60-48**<br>~~es~~| |---|---|---|---|---|---|---|---|---| ||~~es~~<br>Devoe,|12V<br>~~es~~<br>~~es~~<br>Devoe,<br>TCC~“~*~*sSCSC“(‘;CCr.C“C;C;tSYCTCS;C;™tS~SYSCCS~S|15V<br>~~es~~<br>~~es~~<br>TCC~“~*~*sSCSC“(‘;CCr.C“C;C;tSYCTCS;C;™tS~SYSCCS~S|20V<br>~~es~~<br>Ge<br>TCC~“~*~*sSCSC“(‘;CCr.C“C;C;tSYCTCS;C;™tS~SYSCCS~S|24V<br>~~es~~<br>~~se~~<br>TCC~“~*~*sSCSC“(‘;CCr.C“C;C;tSYCTCS;C;™tS~SYSCCS~S|27V<br>~~es~~<br>~~se~~<br>TCC~“~*~*sSCSC“(‘;CCr.C“C;C;tSYCTCS;C;™tS~SYSCCS~S|36V<br>~~es~~<br>~~se~~<br>TCC~“~*~*sSCSC“(‘;CCr.C“C;C;tSYCTCS;C;™tS~SYSCCS~S|48V<br>~~es~~<br>TCC~“~*~*sSCSC“(‘;CCr.C“C;C;tSYCTCS;C;™tS~SYSCCS~S| ||**Note.6**<br>Devoe,<br>RavevcurreNT.|~~es~~<br>Devoe,<br>TCC~“~*~*sSCSC“(‘;CCr.C“C;C;tSYCTCS;C;™tS~SYSCCS~S<br>|||~~es~~<br>TCC~“~*~*sSCSC“(‘;CCr.C“C;C;tSYCTCS;C;™tS~SYSCCS~S<br>|||Ge <br>TCC~“~*~*sSCSC“(‘;CCr.C“C;C;tSYCTCS;C;™tS~SYSCCS~S<br>Cd|~~se~~<br>TCC~“~*~*sSCSC“(‘;CCr.C“C;C;tSYCTCS;C;™tS~SYSCCS~S<br>Cd|~~se~~<br>TCC~“~*~*sSCSC“(‘;CCr.C“C;C;tSYCTCS;C;™tS~SYSCCS~S<br>CSC|~~se~~<br>TCC~“~*~*sSCSC“(‘;CCr.C“C;C;tSYCTCS;C;™tS~SYSCCS~S<br>CSC|TCC~“~*~*sSCSC“(‘;CCr.C“C;C;tSYCTCS;C;™tS~SYSCCS~S<br>CSC‘“(SC*ésS| ||RavevcurreNT.|5A<br>|||4A<br>|||3A<br>Cd|2.5A<br>Cd|2.3A<br>CSC|1.7A<br>CSC|1.3A<br>CSC‘“(SC*ésS| ||RavevcurreNT.<br>RateppoweR|||<br>|||||<br>|||Cd<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’|Cd<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’|CSC<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’|CSC<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’|CSC‘“(SC*ésS<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’| ||RateppoweR<br>RPPLEBNOE(mex)||60W<br>||<br>|<br>||60W<br>||<br>CdS|60W<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’<br>CdS|60W<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’<br>CdS|62.1W<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’<br>|61.2W<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’<br>|62.4W<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’<br>| ||**Note.2**<br>RateppoweR<br>RPPLEBNOE(mex)|<br>votrcexnyamce(EEO<br>VOLTAGE|2Vp-p<br>||<br>|<br>|<br>(EEO<br>[es-tea|2.4Vp-p<br>||<br>CdS<br>[es-tea[essay|1.8Vp-p<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’<br>CdSCOC~—C—CSSOC‘C‘C<br>[essay|2.7Vp-p<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’<br>CdSCOC~—C—CSSOC‘C‘C<br>ayay|2.7Vp-p<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’<br>COC~—C—CSSOC‘C‘C<br>ayasaya|3.6Vp-p<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’<br>COC~—C—CSSOC‘C‘C<br>asaya|4.6Vp-p<br>CdSC(“‘(CSC*L..C(#CNOC(NN’CLUOCOC(‘(‘(<W’<br>COC~—C—CSSOC‘C‘C<br>asaya|| ||**Note.5**<br>RPPLEBNOE(mex) |<br>votrcexnyamce(EEO<br>VOLTAGE<br>ADJ. RANGE||<br>|<br>CdSCOC~—C—CSSOC‘C‘C<br>(EEO<br>[es-tea[essayayayasaya|<br>=<br>=<br>=||||||| ||**Note.5**<br>votrcexnyamce (EEO<br>VOLTAGE|COC~—C—CSSOC‘C‘C<br>(EEO<br>[es-tea [essay ay ay asaya |||||||| ||**Note.3**|10%||||||| |||3.0%||||||| ||—__—*|5.0%<br>800s/250VACS00OnsIEACatHNg||||||| ||**SETUP TIME**<br>—__—*|800s/250VACS00OnsIEACatHNg||||||| ||**Note.4**<br>—__—* <br>~~a~~|800s /250VAC S00OnsI EACatHNg<br>———CC“(N.CWCWCdCS||||||| ||**FREQUENCY RANGE**<br>~~a~~|———CC“(N.CWCWCdCS||||||| ||~~a~~|———CC“(N.CWCWCdCS||||||| ||**EFFICIENCY (Typ.)**<br>se|85%<br>se|86%<br>OG|87.5%<br>OG|87%<br>OG|88%|89%|89%| ||INRUSHCURRENT(max)|0.3A/277VAC||||||| ||INRUSHCURRENT(max)|40A/230VAC||||||| ||INRUSHCURRENT(max)|||||||| |||||||||| |||||||||| |||||||||| |||95<br>10||||||| |||||||||| |||||||||| |||||||||| ||||0.03%/<br>)<br>105002,2612min.IMoycle,periodfor72min.eachalongX.YZaxes||||||| ||**VIBRATION**<br>||105002,2612min.IMoycle,periodfor72min.eachalongX.YZaxes||||||| ||**SAFETY STANDARDS**<br>||10 5002,26 12min.IMoycle, periodfor 72min.eachalongX.YZaxes<br>UL879, UL1310, UL8750, CSAC22.2 No. 207-M89(except for 48V), TUV EN61347-1, EN61347-2-13 independent, CAN/CSA<br>€22.2 No. 223-M91(except for48V), CSAC22.2 No. 250.0-08(exceptfor48V), IP64, J61347-1, J61347-2-13 approved ; design refertoUL60950-1||||||| |||toUL60950-1||||||| |||EMCEMISSION<br>|||Complianceto__—_—_—EN55022(CISPR22)ClassB,EN61000-3-2ClassC(=75%load);EN61000-3-3||||||| |||EMCEMISSION<br>||EN55015,<br>|Complianceto__—_—_—EN55022(CISPR22)ClassB,EN61000-3-2ClassC(=75%load);EN61000-3-3||||||| |||EMCEMISSION<br>|<br>«AST||Complianceto__—_—_—EN55022 (CISPR22) ClassB,EN61000-3-2ClassC(=75%load);EN61000-3-3<br>«ASTaKhrsmin.MILHDBK2ITFQ5C||||||| ||**MTBF**<br>«AST<br>—|)<br>«ASTaKhrsmin.MILHDBK2ITFQ5C<br>erenscimmawh<br>OO—SSC“S*“S™S*™*™S~S™S||||||| ||**DIMENSION**<br>«AST<br>—<br>Pasig|«ASTaKhrsmin. MILHDBK2ITFQ5C<br>erenscimmawh<br>OO—SSC“S*“S™S*™*™S~S™S<br>PasigztpesitakgoSOUT||||||| ||**PACKING**<br>—<br>erenscimmawh<br>OO—SSC“S*“S™S*™*™S~S™S<br>Pasig ztpesitakgoSOUT<br>SSCSCSCSCSC~sdY<br>~~2~~<br>ee<br>2.<br>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: includes set up tolerance, line regulation and load regulation.<br>4. Derating may be needed under low input voltage. Please check the static characteristics for more details.<br>5. Output voltage can be adjusted through the SVR1 on the PCB; limit of output constant current level can be adjusted through theSVR2 on the PCB.<br>6. Constant current operation region is within 70% ~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>7. 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.<br>8. Direct connecting to LEDs is suggested, but is not suitable for using additional drivers.|||||||| **- PLN 60 series** 60W�Single�Output�LED�Power�Supply **==> picture [559 x 330] intentionally omitted <==** **----- Start of picture text -----**<br> Mechanical�Specification Case�No.960A Unit:mm<br>181<br>6.26<br>300 20<br>2-R2.5<br>300 20 +V(Red)<br>90.5 -V(Black)<br>AC/L(Brown) T case SVT 18AWG 2C<br>AC/N(Blue)<br>FG�����(Green/Yellow) SVT 18AWG 3C<br>6.26<br>T case:�Max.�Case Temperature.<br>Output�voltage�and�current�adjustment�:�remove�the�upper�case�and�adjust�through�SVR1�&�SVR2<br>shown�in�the�diagram.<br>SVR1<br>SVR2 SVR1 Output�voltage�adjustment<br>SVR2 Output�current�adjustment<br>21.25<br>61.5<br>21.25<br>35<br>30.75<br>**----- End of picture text -----**<br> **==> picture [548 x 350] intentionally omitted <==** **----- Start of picture text -----**<br> Block�Diagram fosc�:��90KHz(115VAC)<br>120KHz(230VAC)<br>EMI�FILTER POWER RECTIFIERS +V<br>I/P & &<br>SWITCHING -V<br>RECTIFIERS FILTER<br>DETECTION<br>FG O.L.P. CIRCUIT<br>PWM�&�PFC<br>CONTROL O.C.P.<br>O.V.P.<br>Derating�Curve Static�Characteristics<br>100<br>100<br>90<br>80<br>80<br>60 70<br>50<br>60<br>40<br>50<br>20<br>40<br>-30 -25 -5 0 15 30 40 50 60 (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:PLN-60-SPEC 2012-05-07_ **- PLN 60 series** 60W�Single�Output�LED�Power�Supply ## **Power�Factor�Characteristic** **==> picture [397 x 409] intentionally omitted <==** **----- Start of picture text -----**<br> Constant�Current�Mode<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<br>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>(60W)<br>LOAD<br>EFFICIENCY vs�LOAD�(48V�Model)<br>PLN-60�series�possess�superior�working�efficiency�that�up�to�89%�can�be�reached�in�field�applications.<br>92<br>88<br>84<br>80<br>76<br>72<br>277Vac<br>68<br>64 230Vac<br>60<br>115Vac<br>56<br>52<br>48<br>44<br>40<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** This�LED�power�supply�is�suggested�to�work�in�constant�current�mode�area�(CC)�to�drive�the�LEDs. **==> picture [217 x 166] intentionally omitted <==** **----- Start of picture text -----**<br> 100<br>Constant<br>Current area<br>70<br>(max.)<br>Hiccup<br>Protection<br>50 100 Io (%)<br>Typical�LED�power�supply�I-V�curve<br>Vo(%)<br>**----- End of picture text -----**<br> _File�Name:PLN-60-SPEC 2012-05-07_
Updated at February 9, 2023
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