Output current availability 0.35A-1.5A. Consult Factory for customized programming Operates with Industry Standard Dimmers Compact Encapsulated Assembly ESM020 ESM030 ESM040 ESM050 Active Power Factor Correction Output Over-Voltage, Over-Current and Short-Circuit Protection and Auto Recovery High Temperature Operation (up to 90C case) UL Approved, ENEC Approved, CE Mark Long Life ROHS Compliant 10-20 W 21-30 W 31-40 W 41-50 W Tri-Mode Dimming (0-10 V & TRIAC/ELV) Constant Current LED Drivers with Fast Startup Time TROPO is designed for powering LED luminaries with standard lighting contr Standard Light Switches Triac based Incandescent Dimmers (Standard phase - leading edg Electronic Low Voltage Dimmers (Reverse Phase - trailing edge) Input& Voltage Max.& Output& Power Output& Voltage Output& Max.&Case& Efficiency Current Temperature Power& Dimming& Dimming& Startup& &THDTROPO is ideal for installations requiring dimmable Class 2 outputs such a Factor Method Range Time 90#to#305# Vac# maximum 50#W 19#to#56# Vdc 350#mA# to#1.4#A# CC <#20% #87%# typical 90C# (measured#at# the#hot#spot) >#0.9 ForwardJPhase, Commercial Lighting 1#J#100% ReverseJPhase 300#ms (%#of#Iout) &#0#J#10V The following diagram depicts a typical installation utilizing the TROPO: CC: Constant Current PRODUCT DESCRIPTION The ESM series of LED drivers is ideally suited for LED lighPng applicaPons in office, commercial and residenPal. These devices are compaPble with most industry standard phase-cut wall-based dimmers, both forward-phase (leading-edge) and reverse-phase (trailing edge), and 0-10V wall-based dimmers and offer deep dimming from 100% down to 1%. FEATURES * CompaPble with TRIAC (forward-phase or leading-edge) / ELV (reverse-phase or trailing-edge) and 0-10 V dimmers * TRIAC dimming only at 120 Vac * Linear 0-10V dimming transfer funcPon: 10V=100%, 1V=10%, 0.1V=1% * LifePme: 85,500 hours at 70C case hot spot temperature (39C ambient temperature) for ESM050W-1200-42 (50 W) * ProtecPons: output open load, over-current and short-circuit (hiccup), and over-temperature with auto recovery * Conducted and radiated EMI: Compliant with FCC CFR Title 47 Part 15 Class B (120 Vac)/Class A (277 Vac) and EN55015 (CISPR 15) at 220/230/240 Vac * Enables ENERGY STAR(R) and DLC (DesignLight ConsorPum(R)) luminaire compliance * IP64-rated case with silicone-based poeng * 90C maximum case hot spot temperature * Class 2 power supply * Double-insulated power supply between input and output (class II) * Worldwide safety approvals + Dim TRIAC Dimmer - Dim Triac Based Dimmer + LEDs (c) ERP - ENERGY RECOVERY PRODUCTS 5 1 Dimmer 0-10 V Dimmer ESM050 TROPO - LEDs APPLICATION DIAGRAM METAL CASE: L 110 x W 60 x H 26 mm (L 4.33 x W 2.36 x H 1.02 in) Purple: + Dim White: Neutral APPLICATIONS * Recessed lighPng (downlights) * Commercial & ResidenPal lighPng * Office lighPng Residential Li Black: Line LED DRIVER Grey: - Dim Red: + LEDs Black: - LEDs WIRING DIAGRAM ESM020/030/040/050 Data Sheet December 7, 2014 - Rev. A D 1 O d O to M m d F S ESM020 ESM030 ESM040 ESM050 10-20 W 21-30 W 31-40 W 41-50 W Tri-Mode Dimming (0-10 V & TRIAC/ELV) Constant Current LED Drivers with Fast Startup Time 1 - INPUT SPECIFICATION (@25C ambient temperature) Units Minimum Input4Voltage4Range4(Vin) Input4Frequency4Range Power4Factor4(PF) Inrush4Current Leakage4Current Input4Harmonics Typical Maximum 120/220/230/ Vac 90 305 240/277 Hz 47 60 63 0.9 >00.9 Meets0NEMAS4100requirements 2500A0@01200Vac A 5000A0@02300Vac 6000A0@02770Vac Complies0with0IEC61000S3S20for0Class0C0equipment Total4Harmonics4Distortion4 (THD) Efficiency Isolation % S Notes The0rated0output0current0for0each0model0is0achieved0at0 Vin001080Vac0and0at0Vin001980Vac,0at0nominal0load. At0nominal0input0voltage0and0with0nominal0LED0voltage At0any0point0on0the0sine0wave0and025C Measured0per0IEC60950S1 20% !At0nominal0input0voltage0and0nominal0LED0voltage !Complies0with0DLC0(DesignLight0Consortium)0technical0 00requirements0v2.0 S Measured with nominal input voltage, a full sinusoidal wave0form0and0without0dimmer0connected 87% Meets0UL60950S10for0class0II0reinforced/double0insulation0power0supply 2 - OUTPUT SPECIFICATION (@25C ambient temperature) Output4Voltage4(Vout) Units Minimum Vdc 19 Typical Maximum Notes 56 See*ordering*information*for*details !See*ordering*information*for*details !The*rated*output*current*for*each*model*is*achieved*at*Vin**108*Vac* 1400 and*at*Vin**198*Vac,*at*nominal*load. 5 Includes*AC*line*voltage,*load,*and*current*set*point*variations The*driver*does*not*operate*outside*of*the*regulation*requirements*for* 10 more*than*500*ms*during*power*on*with*nominal*LED*load*and* without*dimmer. Output4Current4(Iout) mA 350 Output4Current4Regulation % D5 2.5 Output4Current4Overshoot % D D Ripple4Current !Measured*at*nominal*LED*voltage*and*nominal*input*voltage*without* *33%*of*rated*output*current*for*each* dimming. model !Calculated*in*accordance*with*the*IES*Lighting*Handbook,*9th*edition. Dimming4Range4(%4of4Iout) % 1 100 The*dimming*range*will*be*dependent*on*each*specific*dimmer. With*nominal*LED*voltage*and*without*dimmer*attached With nominal LED voltage, with an approved dimmer attached (see list of approved dimmers in page 5) and at the full dimming conduction angle 300 StartEup4Time ms 400 Output4Controls +Dim4Signal,4EDim4Signal SaveEnergy@ERPpowerllc.com The +Dim/DDim signal pins can be used to adjust the output setting via a standard commercial wall dimmer, an external*control*voltage*source*(0*to*10*Vdc),*or*a*variable*resistor*when*using*the*recommended*number*of*LEDs.* The*dimming*input*permits*1%*to*100%*dimming. 2 www.ERPpowerllc.com ESM020 ESM030 ESM040 ESM050 10-20 W 21-30 W 31-40 W 41-50 W Tri-Mode Dimming (0-10 V & TRIAC/ELV) Constant Current LED Drivers with Fast Startup Time 3 - ENVIRONMENTAL CONDITIONS Operating6Case6Temperature6(Tc) Storage6Temperature Humidity Cooling Acoustic6Noise Units C Minimum #30 C % #40 5 Typical # Convection+cooled Maximum +90 +85 95 dBA Mechanical6Shock6Protection Vibration6Protection MTBF Lifetime (See+graphs+"Lifetime+vs.+Case+and+ Ambient+Temperature"+in+section+6) 22 Notes Case+temperature+measured+at+the+hot+spot !tc+(see+label+in+page+11) Non#condensing Measured+at+a+distance+of+1+foot+(30+cm)+ without+and+with+approved+dimmers per+EN60068#2#27 per+EN60068#2#6+&+EN60068#2#64 >+300,000+hours+when+operated+at+nominal+input+and+output+conditions,+and+at+Tc++70C !85,500+hours+at+Tc+=+70C+(Tambient+=+39.2C)+for+ESM050W#1200#42+(50.4+W) !74,000+hours+at+Tc+=+70C+(Tambient+=+56C)+for+ESM040W#0700#56+(39.2+W) !Measured+at+the+hot+spot+(see+hot+spot+!tc+on+label+in+page+11)+ 4 - EMC COMPLIANCE AND SAFETY APPROVALS Conducted)and)Radiated)EMI Harmonic)Current)Emissions Voltage)Fluctuations)&)Flicker ESD)(Electrostatic) Discharge) RF)Electromagnetic)Field) Susceptibility Electrical)Fast)Transient Immunity) Compliance Surge Conducted)RF) Disturbances Voltage)Dips Transient)Protection Ring)Wave UL cUL CE EMC)Compliance !FCC-CFR-Title-47-Part-15-Class-B-at-120-Vac-and-Class-A-at-277-Vac, !EN55015-(CISPR-15)-compliant-at-220/230/240-Vac IEC61000'3'2 For-Class-C-equipment IEC61000'3'3 IEC61000'4'2 6-kV-contact-discharge,-8-kV-air-discharge,-level-3 IEC61000'4'3 3-V/m,-80-'-1000-MHz,-80%-modulated-at-a-distance-of-3-meters IEC61000'4'4 -2-kV-on-AC-power-port-for-1-minute,-1-kV-on-signal/control-lines -1-kV-line-to-line-(differential-mode)-/-2-kV-line-to-common-mode-ground(tested-to-secondary-ground)-on-AC-power-port,-0.5-kV-for-outdoor-cables IEC61000'4'5 IEC61000'4'6 3-V,-0.15'80-MHz,-80%-modulated IEC61000'4'11 >95%-dip,-0.5-period;-30%-dip,-25-periods;-95%-reduction,-250-periods ANSI/IEEE-c62.41.1'2002-&-c62.41.2'2002-category-A,-2.5-kV-ring-wave Safety)Agency)Approvals UL8750-recognized -UL60950'1-recognized CSA-C22.2-60950'1 IEC61347'2'13-electronic-control-gear-for-LED-Modules Hi4Pot4(High4Potential) SaveEnergy@ERPpowerllc.com Units Minimum Vdc 4242 Safety Typical 3 Maximum Notes !Insulation/between/the/input/(AC/line/and/Neutral)/ and/the/output !Tested/at/the/RMS/voltage/equivalent/of/3000/Vac www.ERPpowerllc.com ESM020 ESM030 ESM040 ESM050 10-20 W 21-30 W 31-40 W 41-50 W Tri-Mode Dimming (0-10 V & TRIAC/ELV) Constant Current LED Drivers with Fast Startup Time 5 - PROTECTION FEATURES Under-Voltage (Brownout) The ESM series provides protecPon circuitry such that an applicaPon of an input voltage below the minimum stated in paragraph 1 (Input SpecificaPon) shall not cause damage to the driver. Short Circuit The ESM series is protected against short-circuit such that a short from any output to return shall not result in a fire hazard or shock hazard. The driver shall hiccup as a result of a short circuit or over current fault. Removal of the fault will return the driver to within normal operaPon. The driver shall recover, with no damage, from a short across the output for an indefinite period of Pme. Internal Over temperature ProtecLon The ESM series incorporates circuitry that prevents internal damage due to an over temperature condiPon. An over temperature condiPon may be a result of an excessive ambient temperature or as a result of an internal failure. When the over temperature condiPon is removed, the driver shall automaPcally recover. Output Open Load When the LED load is removed, the output voltage of the ESM series is limited to 1.3 Pmes the maximum output voltage of each model. SaveEnergy@ERPpowerllc.com 4 www.ERPpowerllc.com ESM020 ESM030 ESM040 ESM050 10-20 W 21-30 W 31-40 W 41-50 W Tri-Mode Dimming (0-10 V & TRIAC/ELV) Constant Current LED Drivers with Fast Startup Time 6 - PREDICTED LIFETIME VERSUS CASE AND AMBIENT TEMPERATURE LifePme is defined by the measurement of the temperatures of all the electrolyPc capacitors whose failure would affect light output under the nominal LED load and worst case AC line voltage. The graph in figure 1 is determined by the electrolyPc capacitor with the shortest lifePme, among all electrolyPc capacitors. The lifePme of an electrolyPc capacitor is measured when any of the following changes in performance are observed: 1) Capacitance changes more than 20% of ini6al value 2) Dissipa6on Factor (tan ): 150% or less of ini6al specified value 3) Equivalent Series Resistance (ESR): 150% or less of 4) Leakage current: less of ini6al specified value ini6al specified value ESM050W-1200-42 (50.4 W, 1200 mA @ 42 V max) Predicted LifeLme vs Temperature ESM040W-0700-56 (39.2 W, 700 mA @ 56 V max) Predicted LifeLme vs Temperature 80,000 100,000 80,000 60,000 60,000 42,500 40,000 30,000 21,500 20,000 - Tcase (C) 70 Tambient (C) 39.2 75 44.2 80 49.2 85 54.2 Lifetime (Hours) Lifetime (Hours) 85,500 74,000 60,000 37,000 40,000 26,500 18,500 20,000 0 Tcase (C) 70 Tambient (C) 56.2 90 59.2 52,500 75 60.7 80 65.5 85 70.2 90 74.9 Figure 1 It should be noted the graph "Life6me vs. Ambient Temperature" may have an error induced in the final applica6on if the moun6ng has restricted convec6on flow around the case. For applica6ons where this is evident, the actual case temperature measured at the Tc point in the applica6on should be used for reliability calcula6ons. SaveEnergy@ERPpowerllc.com 5 www.ERPpowerllc.com ESM020 ESM030 ESM040 ESM050 10-20 W 21-30 W 31-40 W 41-50 W Tri-Mode Dimming (0-10 V & TRIAC/ELV) Constant Current LED Drivers with Fast Startup Time 7 - PHASE-CUT DIMMING Dimming of the driver is possible with standard TRIAC-based incandescent dimmers that chop the AC voltage as shown in Figure 2, or with ELV dimmers. During the rapid rise Pme of the AC voltage when the dimmer turns on, the driver does not generate any voltage or current oscillaPons, and inrush current is controlled. During the on-Pme of the AC input, the driver regulates the output current based upon the conducPon angle. The RMS value of the driver output current is proporPonal to the on-Pme of the AC input voltage. When operaPng with an incandescent dimmer, the RMS output current varies depending upon the conducPon angle and RMS value of the applied AC input voltage. Figure 3 shows the typical output current versus conducPon angle at nominal input voltage. TRIAC dimming is only offered at 120 Vac. The ESM020/030/040/050 series offers dual dimming compaPbility with both phase-cut (reverse-phase and forward-phase) and 0-10V dimmers. Phase-cut dimming always has priority over 0-10 V dimming. Percent of Output Current (Normalized to Rated Current Output Current versus ConducLon Angle Chopped AC Input to Driver AC Wall Power 120% 100% 80% 60% 40% 20% 0% 0 Figure 2 50 100 150 ConducLon Angle 200 Figure 3 8 - COMPATIBLE PHASE-CUT DIMMERS & DIMMING RANGE 120Vac'Dimmers' Mfg.' Model' Mfg.' Model' Mfg.' Model' Lutron' S"603PG( Lutron( DVELV"303P( Lutron( CT"103P( IPI06"1LZ( Lutron( SELV"300P( Cooper( SLC03P( 6631"2( Leviton'( 6683"IW( Leviton( IPE04( Leviton' Leviton' Lutron' DVCL"153P( Leviton( 6161( Lutron( MAELV"600( Lutron' DV"600P( Leviton'( 6633"P( Lutron( FAELV"500( Lutron' TGCL"153P( Lutron( TG"600P( Lightolier'( ZP260QEW( Lutron' S"600P( Cooper( DLC03P( Cooper( DAL06P( Leviton' VPE06( Lutron( LG"600P( ( ( SaveEnergy@ERPpowerllc.com 6 www.ERPpowerllc.com ESM020 ESM030 ESM040 ESM050 10-20 W 21-30 W 31-40 W 41-50 W Tri-Mode Dimming (0-10 V & TRIAC/ELV) Constant Current LED Drivers with Fast Startup Time 9 - 0-10 V DIMMING The ESM drivers operate only with 0-10V dimmers that sink current. They are not designed to operate with 0-10V control systems that source current, as used in theatrical/entertainment systems. Developed in the 1980's, the 0-10V sinking current control method is adopted by the InternaPonal Electrotechnical Commission (IEC) as apart of their IEC Standard 60929 Annex E. The method to dim the output current of the driver is done via the +Dim/-Dim Signal pins. The +Dim/-Dim Signal pins respond to a 0 to 10 V signal, delivering 1% to 100% of the output current based on rated current for each model. A pull-up resistor is included internal to the driver. When the +Dim input (purple) is short circuited to the -Dim wire (grey) or to the -LED wire (black), there is no output current. When the +Dim input (purple) is 1 V, the output current is programmed to 10% of rated current. If the +Dim input is >10V or open circuited, the output current is programmed to 100% of the rated current. When not used, the -Dim wire (grey) and to the +Dim wire (purple) can be capped or cut off. In this configuraPon, no dimming is possible and the driver delivers 100% of its rated output current. The maximum source current (flowing from the driver to the 0-10V dimmer) supplied by the +Dim Signal pin is < 1 mA. The tolerance of the output current while being dimmed shall be +/-8% typical unPl down to 2V. There are two 0-10V dimming transfer funcPons available, a linear curve where 10V = 100% of the output current and 1V = 10% of the output current (seen in figure 4) or a non-linear curve where the 9V = 100% of the output current and 1V = 1% of the output current (seen in figure 5). The non-linear curve is recommended when using standard in wall 0-10V logarithmic dimmers to avoid having insufficient source current available to pull the dimmer up to 10V and to account for the inability of the dimmer to pull below approximately 0.9V. In these types of installaPons, the modified transfer funcPon will ensure 100% light output and dimming to 1%, regardless of the number of drivers on the 0-10V dimming line. Normalized Output Current vs Dimming Voltage Percent of Output Current (Normalized to Rated Current Percent of Output Current (Normalized to Rated Current) 100% 90% 80% 70% 60% 50% 40% 30% 20% 10% 0% Normalized Output Current vs Dimming Voltage 0 1 2 3 4 5 6 7 Dimming Voltage (V) 8 0 9 10 Figure 4 SaveEnergy@ERPpowerllc.com 100% 90% 80% 70% 60% 50% 40% 30% 20% 10% 1% 0% 1 2 3 4 5 6 7 Dimming Voltage (V) 8 9 10 Figure 5 7 www.ERPpowerllc.com ESM020 ESM030 ESM040 ESM050 10-20 W 21-30 W 31-40 W 41-50 W Tri-Mode Dimming (0-10 V & TRIAC/ELV) Constant Current LED Drivers with Fast Startup Time 9 - 0-10 V DIMMING (CONTINUED) Percent of Output Current (Normalized to Rated Current) A fixed or variable resistor can be also used from the dimming input to the return to adjust the output current. Figure 6 show the relaPonship of the output current to a resistor connected across the 0-10V dimming input Normalized Output Current vs Resistance 120% 100% 80% 60% 40% 20% 0% 0 10 20 30 40 50 Resistance (k) Figure 6 60 70 80 10 - COMPATIBLE 0-10 V DIMMERS * Lutron, Nova series (part number NFTV) * Lutron, Diva series (part number DVTV) * Leviton, IllumaTech series (part number IP710-DL) SaveEnergy@ERPpowerllc.com 8 www.ERPpowerllc.com ESM020 ESM030 ESM040 ESM050 10-20 W 21-30 W 31-40 W 41-50 W Tri-Mode Dimming (0-10 V & TRIAC/ELV) Constant Current LED Drivers with Fast Startup Time 11 - MECHANICAL DETAILS Packaging OpLons: I/O ConnecLons: Ingress ProtecLon: Metal case Flying leads, 18 AWG on power leads, 18 AWG on control leads, 203 mm (8 in) long, 105C rated, stranded, stripped by approximately 9.5mm, and Pnned. All the wires, on both input and output, have a 300 V insulaPon raPng. IP20 rated 12 - OUTLINE DRAWINGS Dimensions: L 110 x W 60 x H 26 mm (L 4.33 x W 2.36 x H 1.02 in) Volume: 171.6 cm3 (10.47 in3) Weight: All dimensions are in mm Figure 7 SaveEnergy@ERPpowerllc.com 9 www.ERPpowerllc.com ESM020 ESM030 ESM040 ESM050 10-20 W 21-30 W 31-40 W 41-50 W Tri-Mode Dimming (0-10 V & TRIAC/ELV) Constant Current LED Drivers with Fast Startup Time 13 - ORDERING INFORMATION - MODEL DESCRIPTION ESM-- Series Nominal Vin * 020 (10 - 20 W) * W (120 to * 030 (21 - 30 W) 277 Vac) * 040 (31 - 40 W) * 050 (41 - 50 W) Iout ERP Part Number Vout Max. Nominal Iout Input Voltage (mA) (Vac) Max Output Power (W) Vout Vout Vout No Load Min Nom Max Voltage (Vdc) (Vdc) (Vdc) (Vdc) ESM020W:(12+20W ESM020W'0280'42 ESM020W'0350'42 ESM020W'0440'25'SS'F1B [1] ESM020W'0440'34'SS'F1B [2] ESM020W'0440'34 120+'+277 120+'+277 120+'+277 120+'+277 120+'+277 280 350 440 440 440 11.8 14.7 11.0 15.0 15.0 24 24 19 27 19 37.8 37.8 22.5 30.6 30.6 42 42 25 34 34 50 50 32.5 44.2 44.2 24 24 21 24 19 19 37.8 37.8 28.8 37.8 24 24 42 42 32 42 26 26 50 50 41.6 50 33.8 33.8 40 24 24 24 28 35 50.4 37.8 37.8 37.8 29.7 38.7 56 42 42 42 33 43 60 50 50 50 42.9 50 24 24 23 37.8 37.8 30.6 42 42 34 50 50 44.2 ESM030W:(21+30W ESM030W'0500'42 ESM030W'0550'42 ESM030W'0700'32 ESM030W'0700'42 ESM030W'0900'26 ESM030W'0940'26'SS'F1B [3] 120+'+277 120+'+277 120+'+277 120+'+277 120+'+277 120+'+277 500 550 700 700 900 940 21.0 23.1 22.4 29.4 23.4 24.4 ESM040W:(31+40W ESM040W'0700'56 ESM040W'0800'42 ESM040W'0850'42 ESM040W'0900'42 ESM040W'0940'33'SS'F1B [4] ESM040W'0940'43 120+'+277 120+'+277 120+'+277 120+'+277 120+'+277 120+'+277 ESM050W'1050'42 ESM050W'1200'42 ESM050W'1400'34 120+'+277 120+'+277 120+'+277 700 800 850 900 940 940 39.2 33.6 35.7 37.8 31.0 40.4 ESM050W:(41+50W 1050 1200 1400 44.1 50.4 47.6 For addi6onal op6ons of output current and output voltage, contact your sales representa6ve or send an email to: SaveEnergy@ERPPowerLLC.com Notes: (1) The ESM030W-0440-25-SS-F1B is specifically intended to drive the Cree LMH020 850 sunset module and exhibits a customized 0-10V dimming transfer func6on. It will not work with any other LED or LED string. (2) The ESM040W-0440-34-SS-F1B is specifically intended to drive the Cree LMH020 1250 sunset module and exhibits a customized 0-10V dimming transfer func6on. It will not work with any other LED or LED string. (3) The ESM030W-0940-26-SS-F1B is specifically intended to drive the Cree LMH020 2000 sunset module and exhibits a customized 0-10V dimming transfer func6on. It will not work with any other LED or LED string. (4) The ESM040W-0940-33-SS-F1B is specifically intended to drive the Cree LMH020 3000 sunset module and exhibits a customized 0-10V dimming transfer func6on. It will not work with any other LED or LED string. SaveEnergy@ERPpowerllc.com 10 www.ERPpowerllc.com ESM020 ESM030 ESM040 ESM050 10-20 W 21-30 W 31-40 W 41-50 W Tri-Mode Dimming (0-10 V & TRIAC/ELV) Constant Current LED Drivers with Fast Startup Time 14 - LABELING The ESM040W-0800-42 is used in figures 8 & 9 as an example to illustrate a typical label. Bodom Side Top Side Figure 8 Figure 9 USA Headquarters Tel: +1-805-517-1300 Fax: +1-805-517-1411 301 Science Drive, Suite 210 Moorpark, CA 93021, USA CHINA OperaLons Tel: +86-756-6266298 Fax: +86-756-6266299 No. 8 Pingdong Road 2 Zhuhai, Guangdong, China 519060 ERP - Energy Recovery Products (ERP Power, LLC) - reserves the right to make changes without further noPce to any products herein. ERP makes no warranty, representaPon or guarantee regarding the suitability of its products for any parPcular purpose, nor does ERP assume any liability arising out of the applicaPon or use of any product or circuit, and specifically disclaims any and all liability, including without limitaPon special, consequenPal or incidental damages. "Typical" parameters which may be provided in ERP data sheets and/or specificaPons can and do vary in different applicaPons and actual performance may vary over Pme. All operaPng parameters, including "Typicals" must be validated for each customer applicaPon by customer's technical experts. ERP does not convey any license under its patent rights nor the rights of others. ERP products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applicaPons intended to support or sustain life, or for any other applicaPon in which the failure of the ERP product could create a situaPon where personal injury or death may occur. Should Buyer purchase or use ERP products for any such unintended or unauthorized applicaPon, Buyer shall indemnify and hold ERP and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable axorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that ERP was negligent regarding the design or manufacture of the part. ERP is an Equal Opportunity/ AffirmaPve AcPon Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner. SaveEnergy@ERPpowerllc.com 11 www.ERPpowerllc.com