LM3447-PAR-230VEVM

Using the LM3447-PAR-230VEVM User's Guide Literature Number: SLUUA02 AUGUST 2012 www.ti.com WARNING Always follow the TI set-up and application instructions, including use of all interface components within their recommended electrical rated voltage and power limits. Always use electrical safety precautions to help ensure your personal safety and the safety of those working around you. Contact the TI Product Information Center http://support/ti./com for further information. Save all warnings and instructions for future reference. Failure to follow warnings and instructions may result in personal injury, property damage, or death due to electrical shock and/or burn hazards. The term TI HV EVM refers to an electronic device typically provided as an open framed, unenclosed printed circuit board assembly. It is intended strictly for use in development laboratory environments, solely for qualified professional users having training, expertise, and knowledge of electrical safety risks in development and application of high-voltage electrical circuits. Any other use and/or application are strictly prohibited by Texas Instruments. If you are not suitably qualified, you should immediately stop from further use of the HV EVM. 1. Work Area Safety: (a) Keep work area clean and orderly. (b) Qualified observer(s) must be present anytime circuits are energized. (c) Effective barriers and signage must be present in the area where the TI HV EVM and its interface electronics are energized, indicating operation of accessible high voltages may be present, for the purpose of protecting inadvertent access. (d) All interface circuits, power supplies, evaluation modules, instruments, meters, scopes and other related apparatus used in a development environment exceeding 50 VRMS/75 VDC must be electrically located within a protected Emergency Power Off (EPO) protected power strip. (e) Use a stable and non-conductive work surface. (f) Use adequately insulated clamps and wires to attach measurement probes and instruments. No freehand testing whenever possible. 2. Electrical Safety: (a) De-energize the TI HV EVM and all its inputs, outputs, and electrical loads before performing any electrical or other diagnostic measurements. Revalidate that TI HV EVM power has been safely deenergized. (b) With the EVM confirmed de-energized, proceed with required electrical circuit configurations, wiring, measurement equipment hook-ups and other application needs, while still assuming the EVM circuit and measuring instruments are electrically live. (c) Once EVM readiness is complete, energize the EVM as intended. WARNING: while the EVM is energized, never touch the EVM or its electrical circuits as they could be at high voltages Capacitorable of causing electrical shock hazard. 3. Personal Safety: (a) Wear personal protective equipment (for example. latex gloves and/or safety glasses with side shields) or protect EVM in an adequate lucent plastic box with interlocks from accidental touch. 4. Limitation for Safe Use: (a) Do not use EVMs as all or part of a production unit. 2 SLUUA02 – AUGUST 2012 Submit Documentation Feedback Copyright © 2012, Texas Instruments Incorporated User's Guide SLUUA02 – AUGUST 2012 LM3447-PAR-230VEVM is a Phase-Dimmable, PrimarySide Regulated LED Driver 1 Introduction The LM3447-PAR-230VEVM is a 16-W, 230-VAC isolated dimmable LED driver with form-factors intended for BR and PAR applications. 2 Description The LM3447-PAR-230VEVM is a primary-side power regulated PFC controller used for commercial and residential phase-cut dimmer compatible LED lamp drivers. The LM3447-PAR-230VEVM uses fixed frequency valley switching operation resulting in discontinuous current operation. 2.1 Typical Applications • • 2.2 BR Bulb Form Factor PAR Bulb Form Factor Features • • • • • • • • Primary-Side Control Power Factor Correction Leading and Trailing Edge Compatible 50:1 Dimming Range Valley Switching with Fixed Frequency Discontinuous Operation Thermal Foldback Efficient Triac Hold Current Operation LED Short and Open Circuit Protection SLUUA02 – AUGUST 2012 Submit Documentation Feedback LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated 3 Electrical Performance Specifications 3 www.ti.com Electrical Performance Specifications Table 1. LM3447-PAR-230VEVM Electrical Performance Specifications PARAMETER TEST CONDITIONS MIN TYP MAX UNITS Input Characteristics Voltage range 180 230 265 V 30 32 34 V Output Characteristics Output voltage, VOUT 9 to 11 LED’s Output load current, IOUT Output over voltage 500 mA 38 V 69 kHz Systems Characteristics Switching frequency Full-load efficiency VIN = 230 VAC Power factor, PF 4 85% 0.96 LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated SLUUA02 – AUGUST 2012 Submit Documentation Feedback Schematic www.ti.com 4 Schematic Figure 1. LM3447-PAR-230VEVM Schematic SLUUA02 – AUGUST 2012 Submit Documentation Feedback LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated 5 Test Setup www.ti.com 5 Test Setup 5.1 Test Equipment Voltage Source: 180 VRMS to 270 VRMS isolated AC source Agilent 6812B Multimeters: Agilent 34410A Power Meter: WT210 Digital Power Meter (Voltech) Output Load: 10 LEDs in series (VF = 3.2 V at 350 mA per LED) Oscilloscope: DPO4054 (TEKTRONIX) Operating Temperature: 25°C Recommended Wire Gauge: 18 AWG not more than two feet long 5.2 Recommended Test Setup AMP Meter 1 Volt Meter 1 LED Load AC Source AMP Meter 2 Dimmer Min Max Figure 2. LM3447-PAR-230VEVM Recommended Test Set Up 5.3 List of Test Points Table 2. Test Points Functions 6 TEST POINTS NAME J3-1 Line J3-2 Neutral DESCRIPTION 230 VAC neutral connection 230 VAC line voltage LED+ LED anode connection LED- LED cathode connection LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated SLUUA02 – AUGUST 2012 Submit Documentation Feedback Test Procedure www.ti.com 6 Test Procedure 6.1 Line/Load Regulation and Efficiency Measurement Procedure 1. 2. 3. 4. Connect EVM per Figure 2. An external LED load must be used to start up the EVM. Prior to turning on the AC source, set the voltage to 180 VRMS. Turn on the AC source. Record the output voltage from Voltmeter 2 and output current reading from Ammeter 2 and input current from Ammeter 1. 5. Increase output voltage by 5 VRMS. 6. Repeat steps 4 and 5 until 265 VAC is reached. 7. Refer to Section 6.2 for shutdown procedure. 6.2 Equipment Shutdown 1. Turn off equipment. 2. Make sure Capacitoracitors are discharged. 6.3 EVM Phase Angle Decode vs LED Current 1. 2. 3. 4. 5. Connect EVM per Figure 2. An external LED load must be used to start up the EVM. Prior to turning on the AC source, set the voltage to 230 VRMS. Connect scope probe to EVM per Figure 2 to bridge rectifier output. Turn on the AC source. Record the output voltage from Voltmeter 2 and output current reading from Ammeter 2 and input current from Ammeter 1. 6. Set dimmer to maximum setting and note the LED current. 7. Varry the dimmer from maximum to minimum setting and evaluate the dimming performance. 8. Refer to Section 6.2 for shutdown procedure. NOTE: The scope must be isolated. SLUUA02 – AUGUST 2012 Submit Documentation Feedback LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated 7 EVM Assembly Drawing and PCB Layout 7 www.ti.com EVM Assembly Drawing and PCB Layout The following figures (Figure 3 through Figure 6) show the design of the LM3447-PAR-230VEVM printed circuit board. Figure 3. LM3447-PAR-230VEVM Top Layer Copper (top view) Figure 4. LM3447-PAR-230VEVM Bottom Layer Copper (bottom view) Figure 5. LM3447-PAR-230VEVM Top Assembly Drawing (top view) 8 LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated SLUUA02 – AUGUST 2012 Submit Documentation Feedback EVM Assembly Drawing and PCB Layout www.ti.com Figure 6. LM3447-PAR-230VEVM Bottom Assembly Drawing (bottom view) SLUUA02 – AUGUST 2012 Submit Documentation Feedback LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated 9 Performance Data and Typical Characteristic Curves 8 www.ti.com Performance Data and Typical Characteristic Curves Figure 7 through Figure 30 present typical performance curves for LM3447-PAR-230VEVM. 8.1 Efficiency 90.0% 89.0% 88.0% Efficiency (%) 87.0% 86.0% 85.0% 84.0% 83.0% 82.0% 81.0% 80.0% 180 190 200 210 220 230 240 Input Voltage (VRMS) 250 260 270 C002 Figure 7. LM3447-PAR-230VEVM Efficiency 8.2 Power Factor 0.99 0.98 Power Factor 0.97 0.96 0.95 0.94 0.93 0.92 0.91 0.9 180 190 200 210 220 230 240 Input Voltage (VRMS) 250 260 270 C006 Figure 8. LM3447-PAR-230VEVM Power Factor vs Line Voltage 8.3 Line Regulation 21 20.5 Input Power (W) 20 19.5 19 18.5 18 17.5 17 180 190 200 210 220 230 240 Input Voltage (VRMS) 250 260 270 C007 Figure 9. LM3447-PAR-230VEVM Input Power Regulation 10 LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated SLUUA02 – AUGUST 2012 Submit Documentation Feedback Performance Data and Typical Characteristic Curves www.ti.com 600 580 LED Current (mA) 560 540 520 500 480 460 440 420 400 180 190 200 210 220 230 240 Input Voltage (VRMS) 250 260 270 C001 Figure 10. LM3447-PAR-230VEVM LED Current Regulation 8.4 Input Current THD 10 9 Current THD (%) 8 7 6 5 4 3 2 1 0 180 190 200 210 220 230 240 Input Voltage (VRMS) 250 260 270 C003 Figure 11. LM3447-PAR-230VEVM- Current THD % vs Line Voltage 8.5 Output Ripple Figure 12. Output Ripple (Ch1 - rectified line voltage (100V/div); Ch3 - line current (100mA/div); Ch4- LED current (100 mA/div)) SLUUA02 – AUGUST 2012 Submit Documentation Feedback LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated 11 Performance Data and Typical Characteristic Curves 8.6 www.ti.com Switch Node Voltage Valley Switching Figure 13. Switch Node Waveform (Ch1 - switch node (100V/div); Ch2 - rectified line voltage (100V/div)) 8.7 Current Sense Waveform Figure 14. Current Sense Waveform (Ch1 - switch node voltage (100V/div); Ch2 - R11 current sense (100mV/div)) 12 LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated SLUUA02 – AUGUST 2012 Submit Documentation Feedback Performance Data and Typical Characteristic Curves www.ti.com 8.8 LED Open Circuit Protection Figure 15. Pre-Open Circuit Waveforms (Ch1 - LED voltage (10V/div); Ch3 - line current (100mA/div); Ch4 - LED current(200mA/div)) Figure 16. Open Circuit Steady State Waveforms (Ch1 - LED voltage (10V/div); Ch3 - line current (100mA/div); Ch4 - LED current(200mA/div)) Figure 17. Open Circuit Transient Waveforms (Ch1 - LED voltage (10V/div); Ch3 - line current (100mA/div); Ch4 - LED current(200mA/div)) SLUUA02 – AUGUST 2012 Submit Documentation Feedback LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated 13 Performance Data and Typical Characteristic Curves 8.9 www.ti.com LED Short Circuit Protection Figure 18. Pre-Short Circuit Waveforms (Ch1 - LED voltage (10V/div); Ch3 - line current (100mA/div); Ch4 - LED current(200mA/div)) Figure 19. Short Circuit Steady State Waveforms (Ch1 - LED voltage (10V/div); Ch3 - line current (100mA/div); Ch4 - LED current(200mA/div)) Figure 20. Short Circuit Transient Waveforms (Ch1 - LED voltage (10V/div); Ch3 - line current (100mA/div); Ch4 - LED current(200mA/div)) 14 LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated SLUUA02 – AUGUST 2012 Submit Documentation Feedback Performance Data and Typical Characteristic Curves www.ti.com 8.10 Dimming Characteristics with Reverse Phase Dimmer 600 LED Current (mA) 500 400 300 200 100 0 0.0 50.0 100.0 150.0 Input Voltage (VRMS) 200.0 250.0 C004 Figure 21. LED Current vs Conduction Angle Figure 22. Dimmer at maximum brightness setting (Ch1 - rectified line voltage (100V/div); Ch3 - line current (100mA/div); Ch4- LED current (100 mA/div)) Figure 23. Dimmer at half brightness setting (Ch1 - rectified line voltage (100V/div); Ch3 - line current (100mA/div); Ch4- LED current (100 mA/div)) SLUUA02 – AUGUST 2012 Submit Documentation Feedback LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated 15 Performance Data and Typical Characteristic Curves www.ti.com Figure 24. Dimmer at minimum brightness setting (Ch1 - rectified line voltage (100V/div); Ch3 - line current (100mA/div); Ch4- LED current (100 mA/div)) 8.11 Dimming Characteristics with Forward Phase Dimmer 600 LED Current (mA) 500 400 300 200 100 0 0 50 100 150 Input Voltage (VRMS) 200 250 C005 Figure 25. LED Current vs Input Voltage Figure 26. Dimmer at maximum brightness setting (Ch1 - rectified line voltage (100V/div); Ch3 - line current (100mA/div); Ch4- LED current (100 mA/div)) 16 LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated SLUUA02 – AUGUST 2012 Submit Documentation Feedback www.ti.com Performance Data and Typical Characteristic Curves Figure 27. Dimmer at half brightness setting (Ch1 - rectified line voltage (100V/div); Ch3 - line current (100mA/div); Ch4- LED current (100 mA/div)) Figure 28. Dimmer at minimum brightness setting (Ch1 - rectified line voltage (100V/div); Ch3 - line current (100mA/div); Ch4- LED current (100 mA/div)) SLUUA02 – AUGUST 2012 Submit Documentation Feedback LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated 17 Performance Data and Typical Characteristic Curves www.ti.com 8.12 EMI Plot Ref 100 dBµV * Att 10 dB * RBW 9 kHz * VBW 30 kHz * SWT 1 s 1 MHz 100 10 MHz A 90 1 PK MAXH 80 TDF 70 FCC15QPK 60 FCC15AVG 50 6DB 40 30 20 10 0 Start 150 kHz Stop 30 MHz Figure 29. Peak EMI Scan Ref 100 dBµV * Att 10 dB * RBW 9 kHz * VBW 10 Hz SWT 340 s 1 MHz 100 10 MHz A 90 SGL 1 AV * CLRWR 80 TDF 70 FCC15QPK 60 FCC15AVG 50 6DB 40 30 20 10 0 Center 2.121320344 MHz Span 29.85 MHz Figure 30. Average EMI Scan 18 LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated SLUUA02 – AUGUST 2012 Submit Documentation Feedback Performance Data and Typical Characteristic Curves www.ti.com 8.13 Thermal Performance Figure 31. LM3447-PAR-230VEVM Thermal Image (top view) Figure 32. LM3447-PAR-230VEVM Thermal Image (bottom view) SLUUA02 – AUGUST 2012 Submit Documentation Feedback LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated 19 Transformer Specification 9 www.ti.com Transformer Specification Figure 33. Transformer Specification 20 LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated SLUUA02 – AUGUST 2012 Submit Documentation Feedback List of Materials www.ti.com 10 List of Materials The EVM components list according to the schematic shown in Figure 1. Table 3. LM3447-PAR-230VEVM List of Materials QTY REF DES DESCRIPTION MANUFACTURER PARTNUMBER 1 U1 Phase-dimmable, primary-side power regulated, PFC flyback controller for LED Lighting 1 C1 Capacitor, Ceramic, 2200 pF, 250 V, 20%, Radial TDK Corporation CD12-E2GA222MYNS 2 C3, C5 Capacitor, Film, 0.047 µF, 310 VAC, 20%, Radial EPCOS B32921C3473M 1 C4 Capacitor, Film, 0.01 µF, 630 VDC, 20%, Radial Vishay BC Components BFC233820103 2 C6, C9 Capacitor, Ceramic, 0.1 µF, 630 V, ±10%, X7R, Radial TDK Corporation FK22X7R2J104K 1 C7 AP, Aluminum, 680 µF, 50 V, ±20%, Radial Vishay BC Components MAL214651681E3 1 C8 Capacitor, Ceramic, 1 µF, 100 V, ±10%, X7R, 1210 MuRata GRM32CR72A105KA35L 1 C10 Capacitor, Ceramic, 2.2 µF, 16 V, ±10%, X7R, 0805 MuRata GRM21BR71C225KA12L 1 C11 Capacitor, Ceramic, 10uF, 35 V, ±10%, X7R, 1210 MuRata GRM32ER7YA106KA12L 2 C12, C13 Capacitor, Ceramic, 0.1 µF, 16 V, ±10%, X7R, 0603 MuRata GRM188R71C104KA01D Texas Instruments LM3447MTE/NOPB 1 C14 Capacitor, Ceramic, 4.7 µF, 16 V, X7R, 10%, 0805 Murata Electronics North GRM21BR71C475KA73L America 1 C15 Capacitor, Ceramic, 22 µF, 25 V, ±10%, X7R, 1210 MuRata GRM32ER71E226KE15L 1 D1 Diode, Switching-Bridge, 600 V, 0.8 A, MiniDIP Diodes Inc HD06-T US1K-E3/61T 1 D2 Diode, GPP Ultrafast, 800 V, 1 A, SMA Vishay General Semiconductor 1 D3 Diode, Zener, 3.3V, 200 mW, SOD-323 Diodes Inc. MMSZ5226BS-7-F 1 D4 Diode, Superfast, 200 V, 2 A, SMB Diodes Inc ES2D-13-F 2 D5, D6 Diode, Ultrafast, 100 V, 0.25 A, SOD-323 NXP Semiconductor BAS316,115 1 D7 Diode, TVS, Uni, 220 V, 600 W, 5%, SMB Littelfuse Inc SMBJ220A 1 F1 Fuse, Slow, 500 mA, 250 VAC, Radial Bel Fuse Inc RST 500 2 L1, L2 Inductor, 3300 µH, 290 mA, 9.1 Ω (max), Radial Bourns Inc. RLB9012-332KL 1 Q1 MOSFET, N-channel, 800 V, 0.3 A, TO-92 STMicroelectronics STQ1NK80ZR-AP 1 Q2 MOSFET, N-channel, 800 V, 3 A, DPAK STMicroelectronics STD4NK80ZT4 4 R1, R2, R5, R10 RES, 412 kΩ, 1%, 0.25W, 1206 Vishay-Dale CRCW1206412KFKEA 1 R3 RES, 165 kΩ, 1%, 0.1W, 0603 Vishay-Dale CRCW0603165KFKEA 1 R4 RES, 18 kΩ, 5%, 0.1W, 0603 Vishay-Dale CRCW060318K0JNEA 1 R6 Res, Fusible, 6.8 Ω, x10%, 2W, Axial WELWYN EMC2-6R8K 2 R7, R8 RES, 1 kΩ, 5%, 1W, 2512 Vishay Dale CRCW25121K00JNEGH P 1 R11 RES, 100 Ω, 1%, 0.125W, 0805 Vishay-Dale CRCW0805100RFKEA 1 R12 RES, 0.18 Ω, 1%, 0.5W, 1210 Rohm MCR25JZHFLR180 1 R13 RES, 10 Ω, 5%, 0.1W, 0603 Vishay-Dale CRCW060310R0JNEA 1 R14 RES, 20 kΩ, 5%, 0.25W, 1206 Vishay-Dale CRCW120620K0JNEA 1 R16 RES, 33 Ω, 5%, 0.125W, 0805 Vishay-Dale CRCW080533R0JNEA 1 R17 RES, 4.7 kΩ, 5%, 0.125W, 0805 Vishay-Dale CRCW08054K70JNEA 1 R18 RES, 143 kΩ, 1%, 0.1W, 0603 Vishay-Dale CRCW0603143KFKEA 1 R19 RES, 280 kΩ, 1%, 0.1W, 0603 Vishay-Dale CRCW0603280KFKEA 1 RT1 Thermistor NTC, 100 kΩ, 5%, 0603 MuRata NCP18WF104J03RB 1 T1 Xfmr, EE20/10/6 Wurth/Midcom 7508151501 Rev 01 1 VR1 Varistor, 275VAC, 369VDC, 23J, 7 mm dia., Radial Littelfuse Inc V275LA4P SLUUA02 – AUGUST 2012 Submit Documentation Feedback LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated 21 List of Materials 22 www.ti.com LM3447-PAR-230VEVM is a Phase-Dimmable, Primary-Side Regulated LED Driver Copyright © 2012, Texas Instruments Incorporated SLUUA02 – AUGUST 2012 Submit Documentation Feedback Evaluation Board/Kit Important Notice Texas Instruments (TI) provides the enclosed product(s) under the following conditions: This evaluation board/kit is intended for use for ENGINEERING DEVELOPMENT, DEMONSTRATION, OR EVALUATION PURPOSES ONLY and is not considered by TI to be a finished end-product fit for general consumer use. Persons handling the product(s) must have electronics training and observe good engineering practice standards. As such, the goods being provided are not intended to be complete in terms of required design-, marketing-, and/or manufacturing-related protective considerations, including product safety and environmental measures typically found in end products that incorporate such semiconductor components or circuit boards. This evaluation board/kit does not fall within the scope of the European Union directives regarding electromagnetic compatibility, restricted substances (RoHS), recycling (WEEE), FCC, CE or UL, and therefore may not meet the technical requirements of these directives or other related directives. Should this evaluation board/kit not meet the specifications indicated in the User’s Guide, the board/kit may be returned within 30 days from the date of delivery for a full refund. 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TI assumes no liability for applications assistance, customer product design, software performance, or infringement of patents or services described herein. Please read the User’s Guide and, specifically, the Warnings and Restrictions notice in the User’s Guide prior to handling the product. This notice contains important safety information about temperatures and voltages. For additional information on TI’s environmental and/or safety programs, please contact the TI application engineer or visit www.ti.com/esh. No license is granted under any patent right or other intellectual property right of TI covering or relating to any machine, process, or combination in which such TI products or services might be or are used. FCC Warning This evaluation board/kit is intended for use for ENGINEERING DEVELOPMENT, DEMONSTRATION, OR EVALUATION PURPOSES ONLY and is not considered by TI to be a finished end-product fit for general consumer use. It generates, uses, and can radiate radio frequency energy and has not been tested for compliance with the limits of computing devices pursuant to part 15 of FCC rules, which are designed to provide reasonable protection against radio frequency interference. Operation of this equipment in other environments may cause interference with radio communications, in which case the user at his own expense will be required to take whatever measures may be required to correct this interference. EVM Warnings and Restrictions It is important to operate this EVM within the input voltage range of 190 V to 265 V and the output voltage range of 26 V to 34 V. Exceeding the specified input range may cause unexpected operation and/or irreversible damage to the EVM. If there are questions concerning the input range, please contact a TI field representative prior to connecting the input power. Applying loads outside of the specified output range may result in unintended operation and/or possible permanent damage to the EVM. Please consult the EVM User's Guide prior to connecting any load to the EVM output. If there is uncertainty as to the load specification, please contact a TI field representative. During normal operation, some circuit components may have case temperatures greater than 90°C. The EVM is designed to operate properly with certain components above 90°C as long as the input and output ranges are maintained. These components include but are not limited to linear regulators, switching transistors, pass transistors, and current sense resistors. These types of devices can be identified using the EVM schematic located in the EVM User's Guide. When placing measurement probes near these devices during operation, please be aware that these devices may be very warm to the touch. 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