Hi-lume A-Series Driver Overview Forward-Phase Control

LTEA4U1UMN-HC7 Input Entrèe Output Sortie 12 V 38, V Max / 6 Hz,7 A Max,27 A Class 2 32 W Max 27 196 WARNING: Shock hazard. May result in serious injury or death. Disconnect power N before servicing or installing. ADVERTISSEMENT: Danger d èlectrocution. Peut causer de graves lèsions ou dècès de la personne. Couper l alimentation au disjoncteur avant de procèder au montage ou à l entretien de l installation. USA / Canada 1.8.23.9466 Solid 18-16 AWG (. - 1. mm 2 ) wire only. Utiliser un fil solide 18-16 AWG (, - 1, mm 2 ) seulement. To remove wire, insert screw driver into slot. Pour enlever le fil, insérez un tourneviz dans la fente. Suitable for damp locations. Pour les endroits emplacements. Warranty void if unit opened. Garantie annulée si ouvert. Pats. / Brevets: 7,911,6; 8,466,628; 8,492,987; 8,492,988 N/C N/C LED Dimming Driver Hi-lume A-Series LTE Architectural Dimming Hi-lume A-Series Driver Overview Forward-Phase Control 36943d 1 7.8.14 Hi-lume A-Series Driver is a high-performance LED driver that provides smooth, continuous 1% dimming for virtually any LED fixture, whether it requires constant-current or constant-voltage. It is the most versatile LED driver offered today due to its compatibility with a wide variety of LED arrays, multiple form factors, and numerous control options. Features Continuous, flicker-free dimming from 1% to 1%. Guaranteed compatibility with selected Maestro Wireless, RadioRA 2, HomeWorks QS, GRAFIK Eye QS, GRAFIK Systems, Quantum, and Stanza dimmers. Please see the chart at the end of this document or contact Lutron for details regarding compatible controls. 1% performance tested at factory. 1% burned in at factory. A rated lifetime of, hours @ t c =149 F ( C). UL recognized for United States and Canada. FCC Part compliant for commercial and residential applications at 12 V ~. Pulse width modulation (PWM) or constant-current reduction (CCR) dimming methods available. See Application Note #36 for details. RoHS Compliant For more information please go to: www.lutron.com/hilumeled Hi-lume A-Series, case type K 3. in (76 mm) W x 1. in (2 mm) H x 4.9 in (124 mm) L N N/C DL N/C N/C lutron.com Hi-lume A-Series 1% Dimming LED Driver 1% Pilote de DEL Hi-lume A-Series, case type M Ver. A 1.18 in (3 mm) W x 1. in (2 mm) H x 14.2 in (362 mm) L t c DL -V Hi-lume A-Series +V Cu Al /16 in. (8 mm) N/C N/C +V -V P/N 684

Specifications 36943d 2 7.8.14 Performance Dimming Range: 1% to 1% Operating Voltage: 12 V ~ at /6 Hz (Forward Phase Control) A rated lifetime of, hours @ t c = 149 F ( C). Contact Lutron for derating information. Patented thermal foldback protection LEDs turn on to any dimmed level without going to full brightness. Nonvolatile memory restores all driver settings after power failure. Power Factor: >.9 at 4 W Total Harmonic Distortion (THD): < 2% at 4 W Inrush Current: < 2 A Inrush Current Limiting Circuitry: eliminates circuit breaker tripping, switch arcing and relay failure. Open circuit protected Short circuit protected Turn-on time: 1 second PWM Dimming Frequency: Hz Environmental Sound Rating: Class A. Relative Humidity: Maximum 9% non-condensing. Minimum operating ambient temperature (t a ) = 32 F ( C). Regulatory Approvals Meets ANSI C62.41 category A surge protection standards up to and including 4 kv. FCC Part compliant for commercial and residential applications. Manufacturing facilities employ ESD reduction practices that comply with the requirements of ANSI/ESD S2.2. Lutron Quality Systems registered to ISO 91.28. UL 8 recognized. Class 2 output available. Models available to meet LED Driver requirements for Energy Star 1.1. Driver Wiring & Mounting Driver is grounded by a mounting screw to the grounded fixture (or by terminal connection on the K case). Terminal blocks on the driver accept one solid wire per terminal from 18 AWG to 16 AWG (. mm( to 1. mm(). Fixture must be grounded in accordance with local and national electrical codes. Maximum driver-to-led light engine wire length for Constant-Current Drivers: Wire Gauge 2 ma to 7 ma Maximum Lead Length 71 ma to 1. A 1.1 A to 2.1 A 18 AWG (. mm 2 ) 3 ft (9 m) ft (4. m) 1 ft (3 m) 16 AWG (1. mm 2 ) 3 ft (1. m) 2 ft (7. m) ft (4. m) 14 AWG (2. mm 2 ) ft ( m) 4 ft (12 m) 2 ft (7. m) 12 AWG (4. mm 2 ) 1 ft (3 m) 6 ft (18 m) 4 ft (12 m) Maximum driver-to-led light engine wire length for Constant-Voltage Drivers: Maximum Lead Length Wire Gauge 1 to 2 V- 2. to 4 V- 4. to 6 V- 18 AWG (. mm 2 ) 1 ft (3 m) ft (4. m) 3 ft (9 m) 16 AWG (1. mm 2 ) ft (4. m) 2 ft (7. m) ft ( m) 14 AWG (2. mm 2 ) 2 ft (7. m) 4 ft (12 m) ft (22. m) 12 AWG (4. mm 2 ) 4 ft (12 m) 6 ft (18 m) 1 ft (3 m)

How to Build a Model Number: Hi-lume A-Series 36943d 3 7.8.14 LTEA4U1U - Case Size: example: LTEA4U1UKS-HC7 For further assistance selecting your model number, contact our LED Center of Excellence at 1.877.346.338 or LEDs@lutron.com K = Compact M = Stick Current Level (for Constant-Current): 2 =.2 A; 21 =.21 A 7 =.7 A 21 = 2.1 A Voltage Level (for Constant-Voltage): 1 = 1. V; = 1. V 6 = 6. V Case Style: S = Studded (K case only) N = Non-Studded Driver Output: C = Constant-current driver with pulse width modulation (PWM) dimming A = Constant-current driver with constant-current reduction (CCR) dimming V = Constant-voltage driver with pulse width modulation (PWM) dimming LED Load Output Range (see the following pages for more detail): Class 2 Constant-Voltage A = 1. V 12. V B = 12. V 2. V C = 2. V 24. V D = 24. V 38. V Isolated Non-Class 2 Constant-Voltage X = 38. V 6. V Class 2 Constant-Current E =.2 A. A 3 V 4 V F =.1 A 1. A 3 V 4 V G =.2 A.7 A 8 V 2 V H =.2 A.7 A V 38 V I =.71 A 1. A 8 V 2 V J =.71 A 1. A V 38 V K = 1.6 A 1. A 8 V 2 V L = 1.6 A 1. A V 38 V M = 1.1 A 2.1 A 8 V 2 V Isolated Non-Class 2 Constant-Current Y =.2 A. A 3 V 6 V Z =.1 A 1. A 3 V 6 V

A Output Range, Voltage Driver Models 36943d 4 7.8.14 Constant-Voltage Driver Pulse Width Modulation (PWM) 1. 12. V PWM.42 3.3 A 4 W Voltage Driver Operation Range: 3. 3.3 3 Output Current vs. Output Voltage 4 3 3.3 A Max. Output Power vs. Output Voltage 2. 2 1. 1 A 3 2 2 A 1. W Min. 1 12 2 3 4 6 1 12 2 3 4 6 Input Current 4 ma t a = 2 C, Power Factor.98 12. V 4 W load, THD 16% Driver Efficiency 79% 12 V~ without a dimmer 9 Driver Efficiency vs. Output Power at 12 V~ 8 8 7 1. V 12. V 6 1 2 2 3 3 4

B Output Range, Voltage Driver Models 36943d 7.8.14 Constant-Voltage Driver Pulse Width Modulation (PWM) 12. 2. V PWM.2 3.2 A 4 W Voltage Driver Operation Range: 3. Output Current vs. Output Voltage Output Power vs. Output Voltage 3 4 4 W Max. 3 2. 2 1. 1 B 3 2 2 B 1. W Min. 1 12. 2 3 4 6 1 12. 2 3 4 6 Input Current 4 ma t a = 2 C, Power Factor.99 2. V 4 W load, THD 9% Driver Efficiency 83% 12 V~ without a dimmer 9 Driver Efficiency vs. Output Power at 12 V~ 8 8 7 2. V 18. V 12. V 6 1 2 2 3 3 4

C Output Range, Voltage Driver Models 36943d 6 7.8.14 Constant-Voltage Driver Pulse Width Modulation (PWM) 2. 24. V PWM 1.9.21 A 4 W Voltage Driver Operation Range: 3. Output Current vs. Output Voltage Output Power vs. Output Voltage 4 3 3 2. 4 W Max. 3 2 2 C 1. 2 C 1 1. W Min. 1 2. 24 3 4 6 1 2. 24 3 4 6 Input Current 38 ma t a = 2 C, Power Factor.99 24. V 4 W load, THD 1% Driver Efficiency 84% 12 V~ without a dimmer 9 Driver Efficiency vs. Output Power at 12 V~ 8 24 V 8 7 2. V 6 1 2 2 3 3 4

D Output Range, Voltage Driver Models 36943d 7 7.8.14 Constant-Voltage Driver Pulse Width Modulation (PWM) 24. 38. V PWM.13 1.63 A 4 W Voltage Driver Operation Range: 3. Output Current vs. Output Voltage Output Power vs. Output Voltage 4 3 3 2. 3 2 2 4 W Max. D 1. 2 1 D 1. W Min. 1 2 24. 3 38 4 6 1 2 24. 3 38 4 6 Input Current 38 ma t a = 2 C, Power Factor.99 38. V 4 W load, THD 7% Driver Efficiency 86% 12 V~ without a dimmer 9 Driver Efficiency vs. Output Power at 12 V~ 36 V 38 V 8 24. V 8 7 6 1 2 2 3 3 4

E Output Range, Current Driver Models 36943d 8 7.8.14 Constant-Current Driver Constant-Current Reduction (CCR) 3 4 V-.2. A 6 27 W Current Driver Operation Range: Output Voltage vs. Output Current Output Power vs. Output Current 6 4 4 3 4 3 2 E 3 2 2 4 V Max. E 1 1 3 V Min..2.3..7 1. 1.4 2.1.2.3..7 1. 1.4 1. 2.1 Input Current 27 ma t a = 2 C, Power Factor.99. A 27 W load, THD 1% Driver Efficiency 83% 12 V~ without a dimmer 9 Driver Efficiency vs. Output Power at 12 V~ 8 8.3 A. A 7.2 A 6 6 9 12 18 21 24 27

F Output Range, Current Driver Models 36943d 9 7.8.14 Constant-Current Driver Constant-Current Reduction (CCR) 3 4 V-.1 1. A 4 W Current Driver Operation Range: Output Voltage vs. Output Current Output Power vs. Output Current 6 4 4 W Max. 4 3 4 V Max. 4 3 2 F 3 2 2 F 3 V Min. 1 1.3.1.7 1. 1.4 1. 2.1.3.1.7 1. 1.4 1. 2.1 Input Current 4 ma t a = 2 C, Power Factor.99 1. A 4 W load, THD 7% Driver Efficiency 82% 12 V~ without a dimmer 9 Driver Efficiency vs. Output Power at 12 V~ 8 8.1 A.7 A 1. A 7 6 2 2 3 3 4

G Output Range, Current Driver Models 36943d 1 7.8.14 Constant-Current Driver Pulse Width Modulation (PWM) 8 2 V PWM.2.7 A 2 14 W Constant-Current Reduction (CCR) 8 2 V- Current Driver Operation Range: Output Voltage vs. Output Current Output Power vs. Output Current 6 4 3 3 4 3 2 1 8.2 G.3.7 1. 1.4 1. 2.1 2 2 2 V Max. 1 G 8 V Min..2.3.7 1. 1.4 1. 2.1 Input Current ma t a = 2 C, Power Factor.99.7 A 14 W load, THD 12% Driver Efficiency 76% 12 V~ without a dimmer 8 Driver Efficiency vs. Output Power at 12 V~. A.7 A 7.3 A 6.2 A 4 2 4 6 8 1 12 14

H Output Range, Current Driver Models 36943d 11 7.8.14 Constant-Current Driver Pulse Width Modulation (PWM) 38 V PWM.2.7 A 3 26 W Constant-Current Reduction (CCR) 38 V- Current Driver Operation Range: Output Voltage vs. Output Current Output Power vs. Output Current 6 4 3 3 4 38 3 H 2 1.2.3.7 1. 1.4 1. 2.1 2 2 1 38 V Max. H V Min..2.3.7 1. 1.4 1. 2.1 Input Current 27 ma t a = 2 C, Power Factor.99.7 A 26 W load, THD 8% Driver Efficiency 83% 12 V~ without a dimmer 9 Driver Efficiency vs. Output Power at 12 V~ 8 8. A.7 A.3 A 7.2 A 6 3 8 13 18 23

I Output Range, Current Driver Models 36943d 12 7.8.14 Constant-Current Driver Pulse Width Modulation (PWM) 8 2 V PWM.71 1. A 6 21 W Constant-Current Reduction (CCR) 8 2 V- Current Driver Operation Range: Output Voltage vs. Output Current Output Power vs. Output Current 6 4 3 4 3 2 1 8 I.3.71 1. 1.4 1. 2.1 3 2 2 1 2 V Max. I 8 V Min..2.3.7 1. 1.4 1. 2.1 Input Current 22 ma t a = 2 C, Power Factor.99 1. A 21 W load, THD 11% Driver Efficiency 79% 12 V~ without a dimmer 9 Driver Efficiency vs. Output Power at 12 V~ 8 8.71 A 1. A 7 6 6 9 12 18 21

J Output Range, Current Driver Models 36943d 13 7.8.14 Constant-Current Driver Pulse Width Modulation (PWM) 38 V PWM.71 1. A 11 4 W Constant-Current Reduction (CCR) 38 V- Current Driver Operation Range: Output Voltage vs. Output Current Output Power vs. Output Current 6 4 3 38 V Max. 3 4 38 3 2 J 2 2 J 1 1.3.71 1. 1.4 1. 2.1 V Min..3.71 1. 1.4 1. 2.1 Input Current 4 ma t a = 2 C, Power Factor.99 1. A 4 W load, THD 7% Driver Efficiency 84% 12 V~ without a dimmer 9 Driver Efficiency vs. Output Power at 12 V~ 8 8.71 A 1. A 7 6 1 2 2 3 3 4

K Output Range, Current Driver Models 36943d 14 7.8.14 Constant-Current Driver Pulse Width Modulation (PWM) 8 2 V PWM 1.6 1. A 9 3 W Constant-Current Reduction (CCR) 8 2 V- Current Driver Operation Range: Output Voltage vs. Output Current Output Power vs. Output Current 6 4 3 2 V Max. 3 4 3 2 1 8 K 2 2 1 K 8 V Min..3.7 1.6 1.4 1. 1. 2.1.3.7 1. 1.4 1. 1. 2.1 Input Current 32 ma t a = 2 C, Power Factor.99 1. A 3 W load, THD 12% Driver Efficiency 79% 12 V~ without a dimmer 9 Driver Efficiency vs. Output Power at 12 V~ 8 8 1.6 A 1.2 A 1. A 7 6 9 11 13 17 19 21 23 2 27 29

L Output Range, Current Driver Models 36943d 7.8.14 Constant-Current Driver Pulse Width Modulation (PWM) 38 V PWM 1.6 1. A 16 4 W Constant-Current Reduction (CCR) 38 V- Current Driver Operation Range: Output Voltage vs. Output Current Output Power vs. Output Current 6 4 3 4 3 2 L 4 W Max. 3 2 2 L V Min. 1 1.3.7 1.6 1.4 1. 1. 2.1.3.7 1. 1.4 1. 1. 2.1 Input Current 4 ma t a = 2 C, Power Factor.99 1. A 4 W load, THD 9% Driver Efficiency 82% 12 V~ without a dimmer 9 Driver Efficiency vs. Output Power at 12 V~ 8 8 1.6 A 1.2 A 1. A 7 6 16 19 22 2 28 31 34 37 4

M Output Range, Current Driver Models 36943d 16 7.8.14 Constant-Current Driver Pulse Width Modulation (PWM) 8 19.9 V PWM 1.1 2.1 A 12 3 W Constant-Current Reduction (CCR) 8 19.9 V- Current Driver Operation Range: Output Voltage vs. Output Current Output Power vs. Output Current 6 4 3 3 4 3 2 3 W Max. 2 2 M 1 8 M 1 8 V Min..3.7 1. 1.4 1.1 1. 2.1.3.7 1. 1.4 1.1 1. 2.1 Input Current 31 ma t a = 2 C, Power Factor.99 2.1 A 3 W load, THD 14% Driver Efficiency 76% 12 V~ without a dimmer 9 Driver Efficiency vs. Output Power at 12 V~ 8 8 7 1.1 A 1. A 2.1 A 6 12 14 16 18 2 22 24 26 28 3

X Output Range, Voltage Driver Models 36943d 17 7.8.14 Constant-Voltage Driver (Isolated, Non-Class 2) Pulse Width Modulation (PWM) 38. 6. V PWM.8 1.4 A 4 W Voltage Driver Operation Range: Output Current vs. Output Voltage Output Power vs. Output Voltage 3. 4 3 3 2. 3 2 1. 4 W Max. 2 2 X 1 1. W Min. 1 2 3 38. 4 6 X 1 2 3 38. 4 6 Input Current 39 ma t a = 2 C, Power Factor.99 6. V 4 W load, THD 1% Driver Efficiency 86% 12 V~ without a dimmer 9 Driver Efficiency vs. Output Power at 12 V~ 8 38. V 6. V 8 7 48. V 6 1 2 2 3 3 4

Y Output Range, Current Driver Models 36943d 18 7.8.14 Constant-Current Driver (Isolated, Non-Class 2) Pulse Width Modulation (PWM) 3 6 V PWM.2. A 6 3 W Constant-Current Reduction (CCR) 3 6 V- Current Driver Operation Range: Output Voltage vs. Output Current Output Power vs. Output Current 6 4 3 4 3 2 Y 3 2 2 6 V Max. Y 1 1 3 V Min..2.3..7 1. 1.4 1. 2.1.2.3..7 1. 1.4 1. 2.1 Input Current 3 ma t a = 2 C, Power Factor.99. A 3 W load, THD 11% Driver Efficiency 84% 12 V~ without a dimmer 9 Driver Efficiency vs. Output Power at 12 V~ 8. A 8 7.2 A.3 A 6 6 9 12 18 21 24 27 3

Z Output Range, Current Driver Models 36943d 19 7.8.14 Constant-Current Driver (Isolated, Non-Class 2) Pulse Width Modulation (PWM) 3 6 V PWM.1 1. A 16 4 W Constant-Current Reduction (CCR) 3 6 V- Current Driver Operation Range: Output Voltage vs. Output Current Output Power vs. Output Current 6 4 3 2 Z 4 W Max. 4 3 3 2 2 6 V Max. Z 3 V Min. 1 1.3.1.7 1. 1.4 1. 2.1.3.1.7 1. 1.4 1. 2.1 Input Current 4 ma t a = 2 C, Power Factor.99 1. A 4 W load, THD 8% Driver Efficiency 83% 12 V~ without a dimmer 9 Driver Efficiency vs. Output Power at 12 V~ 8 8.1 A.7 A 1. A 7 6 2 2 3 3 4

K Case: Case Dimensions 36943d 2 7.8.14 B F G A H* I* J* C E D K Case: Connector Location Dimensions K* L K* L O 8-32 Threaded Studs* P Q M N Q R* * A B C D E 4.2 in (17 mm) 1. in (2 mm) 3. in (76 mm) 4.9 in (124 mm) 4.6 in (117 mm) (mounting center) Applies to studded K case only. F 1.42 in (36 mm) G 1.99 in (1 mm) H* 1.11 in (28 mm) I* 2. in (1 mm) J* 1.6 in (41 mm) K*.33 in (8.3 mm) L. in (16. mm) M. in (19 mm) N 1.73 in (44 mm) O 1.33 in (34 mm) P.74 in (19 mm) Q.32 in (8 mm) R*.29 in (7 mm)

K Case: Side Entry Connector Location Dimensions (Non-Studded) 36943d 21 7.8.14 S T S T U V 1.38 in (3 mm).64 in (16 mm).88 in (22 mm) 1.3 in (39 mm) U V M Case: Case Dimensions C B A A B C D 14.12 in (39 mm) 13.68 in (347 mm) (mounting center) 1.18 in (3 mm) 1. in (2 mm) D

Wiring 36943d 22 7.8.14 Controls Requiring Neutral Note: Colors shown correspond to terminals on driver. Wiring Diagram Line LutronR Neutral-wire Forward Phase Dimmer Dimmed Line (Black) +V (Red) 2 Neutral Neutral Ground 1 Neutral (White) Hi-lume A-Series LED Dimming Driver V (Black) 2 LED Light Engine Ground (Green) 1 Ground 1 1 Ground wire connection available on K case models only. Fixture and driver case must be grounded in accordance with local and national electrical codes. 2 For maximum driver-to-led light engine wire length, see charts in Driver Wiring and Mounting section. Compatible Controls: Lutron Neutral-wire Dimmers Guaranteed performance specifications with the controls listed in the chart below. For assistance selecting controls, contact our LED Center of Excellence at 1.877.346.338 or LEDs@lutron.com Product Part Number Low-End Setting/Load-Type Setting* Maestro Wireless dimmer HomeWorks QS adaptive dimmer HomeWorks QS 6 W dimmer HomeWorks QS 1 W dimmer Stanza dimmer RadioRA 2 adaptive dimmer RadioRA 2 1 W dimmer Trim low-end per Advanced Programming Mode App Note (Lutron P/N 4837) Drivers per Control A: Not Ganged B: End of Gang C: Middle of Gang 1 8 1 8 1 8 HQRD-6NA- LED Lutron A-Series 2-Wire 1 8 1 8 1 8 HQRD-6ND- LED Lutron A-Series 2-Wire 1 8 1 8 1 8 HQRD-1ND- LED Lutron A-Series 2-Wire 1 13 1 13 1 13 MRF2-6ND-12- SZ-6ND- RRD-6NA- RRD-1ND- Trim low-end per Dimmer Installation Guide Hi-lume A-Series LTE LED Driver 2-Wire Set Device type to INC/MLV Neutral Dimmer ; Set High-End Trim to 99%; Set Low-End Trim to 3% A B B B C B 1 8 1 8 1 8 1 8 1 8 1 8 1 13 1 13 1 13 * Setting the low-end trim and load type is necessary to ensure optimal performance and 1% dimming capability. Note: For information about Legacy Product use in existing control application, contact LEDs@lutron.com

Wiring (continued) 36943d 23 7.8.14 Controls Requiring Neutral (continued) Note: Colors shown correspond to terminals on driver. Wiring Diagram LutronR Line Dimming Dimmed Line (Black) +V (Red) 2 Module/Panel Neutral Neutral (White) Ground 1 Neutral Hi-lume A-Series LED Dimming Driver V (Black) 2 LED Light Engine Ground (Green) 1 Ground 1 1 Enclosure must be grounded in accordance with local and national electrical codes. Ground provided by grounding of junction box or by using the green ground wire connection. 2 For maximum driver-to-led light engine wire length, see charts in Driver Wiring and Mounting section. Compatible Controls: Lutron Dimming Modules/Panels Guaranteed performance specifications with the controls listed in the chart below. For assistance selecting controls, contact our LED Center of Excellence at 1.877.346.338 or LEDs@lutron.com Product Part Number Drivers per Control Low-End Setting/Load-Type Setting* HomeWorks QS wallbox power module HQRJ-WPM-6D-12-1 1 (per output); 26 total per module LED Lutron A-Series 2-Wire HomeWorks wallbox power module HWI-WPM-6D-12 1 1 (per output); 26 total per module Set load type to GRX FDBI or GRX-TVI GRAFIK Eye QS control unit QSGR-, QSGRJ- 1 1 (per output); 26 total per unit Set load type to Fluorescent Module GRAFIK Eye 3 control unit GRX-31-, GRX-3-1 1 (per output); 26 total per module Set load type to GRX FDBI or GRX-TVI RPM-4U module (LCP, HomeWorks QS, GRAFIK SystemsTM, Quantum ) HW-RPM-4U-12, LP-RPM-4U-12 1 26 (per output); 26 total per module LED Lutron A-Series 2-Wire Set load type to 2-1 RPM-4A module (LCP, HomeWorks QS, GRAFIK SystemsTM, Quantum ) HW-RPM-4A-12, LP-RPM-4A-12 1 13 (per output); 26 total per module LED Lutron A-Series 2-Wire Set load type to 2-1 GP dimming panels Various 1 26 Set load type to 2-1 * Setting the low-end trim and load type is necessary to ensure optimal performance and 1% dimming capability.

Wiring (continued) 36943d 24 7.8.14 Controls Not Requiring Neutral Note: Colors shown correspond to terminals on driver. Wiring Diagram Line LutronR Non-Neutral Forward Phase Dimmer Dimmed Line (Black) +V (Red) 2 Neutral Ground 1 Neutral (White) Hi-lume A-Series LED Dimming Driver V (Black) 2 LED Light Engine Ground (Green) 1 Ground 1 1 Ground wire connection available on K case models only. Fixture and driver case must be grounded in accordance with local and national electrical codes. 2 For maximum driver-to-led light engine wire length, see charts in Driver Wiring and Mounting section. Compatible Controls: Lutron Non-Neutral Dimmers Guaranteed performance specifications with the controls listed in the chart below. For assistance selecting controls, contact our LED Center of Excellence at 1.877.346.338 or LEDs@lutron.com Product Part Number Low-End Setting/Load-Type Setting* Ariadni C L 2 W dimmer AYCL-23P- Set low-end trim dial to 1 o clock. Adjust slightly if needed. See Figure 1 under Dimmer Range Adjustment section in the Dimmer Installation Guide for how to adjust low-end trim. A B B B C B Drivers per Control A: Not Ganged B: End of Gang C: Middle of Gang 1 8 1 8 1 8 Diva C L 2 W dimmer DVCL-23P- DVSCCL-23P- Set low-end trim dial to 1 o clock. Adjust slightly if needed. See Figure 1 under Dimmer Range Adjustment section in the Dimmer Installation Guide for how to adjust low-end trim. 1 8 1 8 1 8 1 8 1 8 1 8 * Setting the low-end trim and load type is necessary to ensure optimal performance and 1% dimming capability. Note: For information about Legacy Product use in existing control application, contact LEDs@lutron.com

36943d 2 7.8.14 ELECTRICIANS AND CONTRACTORS FACILITIES MANAGERS Driver Leads Maximum driver-to-led light engine wire length for Constant-Current Drivers: Wire Gauge 2 ma to 7 ma Maximum Lead Length 71 ma to 1. A 1.1 A to 2.1 A 18 AWG (. mm 2 ) 3 ft (9 m) ft (4. m) 1 ft (3 m) 16 AWG (1. mm 2 ) 3 ft (1. m) 2 ft (7. m) ft (4. m) 14 AWG (2. mm 2 ) ft ( m) 4 ft (12 m) 2 ft (7. m) 12 AWG (4. mm 2 ) 1 ft (3 m) 6 ft (18 m) 4 ft (12 m) Maximum driver-to-led light engine wire length for Constant-Voltage Drivers: Maximum Lead Length Wire Gauge 1 to 2 V- 2. to 4 V- 4. to 6 V- 18 AWG (. mm 2 ) 1 ft (3 m) ft (4. m) 3 ft (9 m) 16 AWG (1. mm 2 ) ft (4. m) 2 ft (7. m) ft ( m) 14 AWG (2. mm 2 ) 2 ft (7. m) 4 ft (12 m) ft (22. m) 12 AWG (4. mm 2 ) 4 ft (12 m) 6 ft (18 m) 1 ft (3 m) SERVICE Warranty For warranty information, please visit http://www.lutron.com/ballastdriverwarranty.pdf Replacement Parts When ordering Lutron replacement parts please provide the full model number. Consult Lutron if you have any questions. Further Information For further information, please visit us at www.lutron.com/hilumeled or contact our LED Control Center of Excellence at 1.877.346.338 or LEDs@lutron.com Wiring and Grounding Driver and lighting fixture must be grounded. Drivers must be installed per national and local electrical codes. LED Load Replacement For Class 2 rated drivers, the LED load can be changed while the driver is installed and powered. Maximum Driver Operating Temperature Driver case temperature (t c ) must not exceed UL conditions of acceptability in end product. For, hour lifetime, driver case temperature (t c ) must not exceed C.