Energy Efficiency Certification

Energy Efficiency Certification UL conducted an independent evaluation on behalf of: Advantech Co., Ltd. 1Aly 20 Ln 26, Rueiguang Rd., Neihu District Taipei, 114 Taiwan for the following products: Display Models: FPM-3121G-R3AE FPM-8121H-R3AE FPM-3121G-X0AE This product meets all of the necessary qualifications pursuant to: ENERGY STAR: Program Requirements for Displays, Version 5.1 2011-05-20 N/A 11CA10499 This is to certify that representative samples of the Certified Product(s) listed above have been investigated by UL to the Standard(s) indicated on this certificate, in accordance with the UL Global Services Agreement and the EEC Terms & Conditions ( Agreement ). The Certificate Holder is entitled to use the UL Energy Verified Mark for the Certified Product(s) listed on the certificate and manufactured at the production site(s) covered by the UL Test Report, in accordance with the terms of the Agreement. This Certificate shall remain valid unless a Standard identified on this Certificate is amended or withdrawn prior to that date or these is a non-compliance with the Agreement.

Project: 11CA10499 File: NC12272 Page 1 of 25 DATA PACKAGE INFORMATION SHEET Applicant Information Name / Address: Advantech Co., Ltd. 1 ALY 20 LN 26, Rueiguang Rd, Neihu District Taipei, 114 Taiwan Product Information Standard(s): Energy Star Program Requirements for Displays: Version 5.1 VESA flat Panel Display measurements (FPDM) Standard, Version 2.0 IEC 62087, Ed 2.0: Methods for Measurement for the Power Consumption of Audio, Video and Related Equipment IEC 62301, Ed 1.0: Household Electrical Appliances Measurement of Stanby Power CCNs: Product Name/Type: Models: ENVP Displays FPM-3121G-R3AE, FPM-8121H-R3AE, FPM-3121G-X0AE Test Location Information DAP and UL: EPA-Recognized LAB CTDP TCP TPTDP WTDP UL Test Location Name/Address: Tests Conducted By**: Underwriters Laboratories Taiwan Co., Ltd. 1st Fl., 260 Da-Yeh Rd., Pei Tou District, Taipei City, Taiwan 112 Sign: BRUCE YANG Print: BRUCE YANG **When one person conducts all tests, the printed name and signature can be inserted here instead of on each page containing data. Authorized Signatory or TCP Reviewer: Sign: N/A Print: N/A Date: N/A UL WTDP / WMT Witness: Sign: N/A Print: N/A Reviewed & Accepted Qualified Project Handler: Sign: ALFRED LEE Print: ALFRED LEE

Project: 11CA10499 File: NC12272 Page 2 of 25 LIST OF TESTS Contents PRODUCT REFERENCE PAGE... 6 POWER SUPPLY REFERENCE PAGE... 7 TECHNICIAN S REFERENCE GUIDE... 8 PRE-TEST UUT INITIALIZATION FOR ALL PRODUCTS... 12 ON MODE POWER CONSUMPTION TEST (WITH VIEWABLE DIAGONAL SCREEN SIZE LESS THAN 30 INCHES).. 13 SLEEP MODE POWER CONSUMPTION TEST (ALL PRODUCTS)... 17 OFF MODE POWER CONSUMPTION TEST (ALL PRODUCTS)... 21 WORKSHEETS... 25

Project: 11CA10499 File: NC12272 Page 3 of 25 Environment: Witness Test Data Program (WTDP) Information: Accommodations and Environmental conditions, including proper power source meet the requirements of the test standard or UL default criteria (ISO/IEC 17025 Clause 5.3.1, 5.3.2. 5.3.3) Equipment: Testing is being conducted within the test equipment calibration dates. (See Test Instrument Information Page and ISO/IEC 17025 5.6.2.2) Critical Consumables: Critical consumables are compliant with test standard requirements. (ISO/IEC 17025 Clause 4.6) Sample Identification: Identification of items to be tested has been made (e.g. model no., Serial No., etc.) (See Test Sample Identification page and ISO/IEC 17025 Clause 5.8.2) Summary: The test facility was deemed to have the environment and capabilities necessary to perform the tests included in this data package. Yes No N/A Yes No Yes No N/A Yes No Yes No

Project: 11CA10499 File: NC12272 Page 4 of 25 TEST SAMPLE IDENTIFICATION The table below is to provide correlation of sample numbers to specific product related information. Refer to this table when a test identifies a test sample by "Sample No." only. Sample Number Sample Card Number 1102665-1 1102665 2011-05-10 1102667-1 1102667 2011-05-10 1102668-1 1102668 2011-05-10 1102665-2 1102665 2011-05-10 1102667-2 1102667 2011-05-10 1102668-2 1102668 2011-05-10 Sampling Procedure (if used) : -- Date Received Manufacturer, Product Identification, Serial Number and Ratings Advantech Co., Ltd. LCD Monitor, Model: FPM-3121G-R3AE I/P: 12Vdc, 4.75A Advantech Co., Ltd. LCD Monitor, Model: FPM-3121G-R3AE I/P: 12Vdc, 4.75A Advantech Co., Ltd. LCD Monitor, Model: FPM-3121G-R3AE I/P: 12Vdc, 4.75A Sinpro Electronics Co Ltd Switching Power Supply, Model: SPU63-105 I/P: 100-240 Vac, 47 63 Hz, 1.6 A O/P: 12 Vdc, 4.75 A max. Sinpro Electronics Co Ltd Switching Power Supply, Model: SPU63-105 I/P: 100-240 Vac, 47 63 Hz, 1.6 A O/P: 12 Vdc, 4.75 A max. Sinpro Electronics Co Ltd Switching Power Supply, Model: SPU63-105 I/P: 100-240 Vac, 47 63 Hz, 1.6 A O/P: 12 Vdc, 4.75 A max.

Project: 11CA10499 File: NC12272 Page 5 of 25 TEST INSTRUMENTS REFERENCE LIST Instr. Instrument Instrument Range Used Calibration Date Make and Model ** Code I.D. Type Or *** Last Due "Chamber setting(s) was were monitored to ensure that the setting(s) was were stable throughout the test time frame. Any deviations from the setting(s) are noted below. Date Test Instrument Code Time period of deviation Setting(s) N/A N/A N/A N/A N/A ** Information to be recorded when tests are conducted at a non-ul facility. *** Refer to specific data sheet for individual scale used. Test equipment information is recorded on UL s Laboratory Project Management (LPM)/Laboratory Equipment Management (LEM) database. (This statement may be selected only if datasheets are completed at a UL facility)

Project: 11CA10499 File NC12272 Page 6 of 25 PRODUCT REFERENCE PAGE Product Type: LCD Monitor Model Differences: Model: FPM-3121G-R3AE, FPM-8121H-R3AE, FPM-3121G-X0AE Model FPM-3121G-R3AE is identical to FPM-8121H-R3AE except for model designation. Model FPM-3121G-R3AE is similar to model FPM-3121G-X0AE except for model designation and model 3121G-R3AE has touch panel function. Base Product: FPM-3121G-R3AE Electrical Ratings: Voltage, Vdc: 12 Current A ma: 4.75 Frequency, Hz: N/A Power, Watts: N/A Unit Configuration With Automatic Brightness Control (ABC) No Yes Diagonal Viewable Screen Size, d: (inches) d < 30.0 30.0 d 60.0 Resolution, r: (pixel count) r 1.1 r > 1.1 Resolution: (MP) 0.48 Viewable Screen Dimensions, W x H: (inches) Viewable Screen Area, A: (sq. inches) Others: 9.75 X 7.3125 71.3 N/A Comments Enabled by default Yes No

Project: 11CA10499 File NC12272 Page 7 of 25 POWER SUPPLY REFERENCE PAGE Product Type: Internal External Manufacturer: Sinpro Electronics Co Ltd Brand Name: SINPRO Model Number/Designation: SPU63-105 Nameplate Rating: Input: 100-240 Vac, 47 63 Hz, 1.6 A Output: 12 Vdc, 4.75 A max. Energy Efficiency Verified: Yes No Efficiency Level: V The External Power Supply meets the level V performance requirements under the International Efficiency Marking Protocol and includes the level V marking. The External Power Supply shall meet the level V performance requirements under the International Efficiency Marking Protocol since it does not include the level V marking. See separate data sheet package for the external power supply testing.

Project: 11CA10499 File NC12272 Page 8 of 25 Definitions: TECHNICIAN S REFERENCE GUIDE Electronic Display (Display): A commercially-available product with a display screen and associated electronics, often encased in a single housing, that as its primary function displays visual information from (1) a computer, workstation or server via one or more inputs (e.g., VGA, DVI, HDMI, IEEE 1394), (2) a USB flash drive, (3) a memory card, or (4) a wireless Internet connection. External Power Supply (EPS): Also referred to as External Power Adapter. A component contained in a separate physical enclosure external to a display, designed to convert line voltage AC input from the mains to lesser DC voltage(s) in order to provide power to the display. An EPS connects to the display via a removable or hard-wired male/female electrical connection, cable, cord or other wiring. Operational Modes: On Mode: The operational mode of a display that (1) is connected to a power source, (2) has all mechanical (hard) power switches turned on, and (3) is producing an image. Sleep Mode: The operational mode of a display that (1) is connected to a power source, (2) has all mechanical (hard) power switches turned on, and (3) is in a reduced-power state after receiving a signal from a connected device (e.g., computer, game console, set-top box) or by cause of an internal function (e.g., sleep timer, occupancy sensor). Sleep Mode is considered a soft low-power condition, in that the product may exit Sleep Mode upon receiving a signal from a connected device or by cause of an internal function. Off Mode: The operational mode of a display that (1) is connected to a power source, (2) has one or more manual power switches turned off, and (3) is not providing any function. The product may only exit Off Mode by cause of direct user actuation of a manual power switch. Luminance: The photometric measure of the luminous intensity per unit area of light travelling in a given direction, expressed in units of candelas per square meter (cd/m2). Screen Area: The viewable screen area of a product, calculated by multiplying the viewable image width by the viewable image height. Automatic Brightness Control (ABC): The self-acting mechanism that controls the brightness of a display as a function of ambient light. Product Family A group of product models that are (1) made by the same manufacturer, (2) subject to the same ENERGY STAR qualification criteria, and (3) of a common basic design. Product models within a family differ from each other according to one or more characteristics or features that either (1) have no impact on product performance with regard to ENERGY STAR qualification criteria, or (2) are specified herein as acceptable variations within a product family. For Displays, acceptable variations within a product family include: 1) Color, and 2) Housing. Significant Digits and Rounding: All calculations shall be carried out with actual measured or observed values. Only the final result of a calculation shall be rounded. Calculated results shall be rounded to the nearest significant digit as expressed in the corresponding specification limit. Unless otherwise specified, compliance with specification limits shall be evaluated using exact values without any benefit from further rounding.

Project: 11CA10499 File NC12272 Page 9 of 25 AC Input Power: TECHNICIAN S REFERENCE GUIDE (Cont d) Unless specified otherwise in the individual Methods, the tests shall be conducted under the following ambient and power supply source conditions. Confirmation of these conditions have been recorded at the time the test is conducted. Products intended to be powered from AC mains shall be connected to a voltage source appropriate for the intended market, as specified in Table 1 or Table 2. Market Table 1: Input Power Requirements for Products with Nameplate Rated Power Less Than or Equal to 1500 W Voltage Voltage Tolerance Maximum Total Harmonic Distortion Frequency Frequency Tolerance North America, Taiwan 115 Vac +/- 1.0 % 2.0 % 60 Hz +/- 1.0 % Europe, Australia, New Zealand 230 Vac +/- 1.0 % 2.0 % 50 Hz +/- 1.0 % Japan 100 Vac +/- 1.0 % 2.0 % 50 Hz/60 Hz +/- 1.0 % Market Table 2: Input Power Requirements for Products with Nameplate Rated Power Greater than 1500 W Voltage Voltage Tolerance Maximum Total Harmonic Distortion Frequency Frequency Tolerance North America, Taiwan 115 Vac +/- 4.0 % 5.0 % 60 Hz +/- 1.0 % Europe, Australia, New Zealand 230 Vac +/- 4.0 % 5.0 % 50 Hz +/- 1.0 % Japan 100 Vac +/- 4.0 % 5.0 % 50 Hz/60 Hz +/- 1.0 % Low-voltage DC Input Power: 1) Products may only be powered with a low-voltage DC source (e.g., via network or data connection) if the DC source is the only available source of power for the product (e.g., no AC plug or EPS is available). 2) Products powered by low-voltage DC shall be configured with an AC source of the DC power for testing (e.g., an ACpowered USB hub). 3) Reported UUT power shall be equal to the AC power consumption of the low-voltage DC source with the UUT as the load, minus the AC power consumption of the low-voltage DC source with no load (PS), as measured per Section 6 of this procedure. Ambient Temperature: Ambient temperature shall be from 18 C to 28 C. Relative Humidity: Relative humidity shall be from 10% to 80%.

Project: 11CA10499 File NC12272 Page 10 of 25 TECHNICIAN S REFERENCE GUIDE (Cont d) Input Meter Considerations: The power meter shall include the following attributes: 1. Crest Factor: i), An available current crest factor of 3 or more at its rated range value; and ii), Lower bound on the current range of 10mA or less. 2. Minimum Frequency Response: 3.0 khz 3. Minimum Resolution: i), 0.01 W for measurement values less than 10 W; ii), 0.1 W for measurement values from 10 W to 100 W; and iii), 1.0 W for measurement values greater than 100 W. Measurement Accuracy: 1. Power measurements with a value greater than or equal to 0.5 W shall be made with an uncertainty of less than or equal to 2% at the 95% confidence level. 2. Power measurements with a value less than 0.5 W shall be made with an uncertainty of less than or equal to 0.01 W at the 95% confidence level.

Project: 11CA10499 File NC12272 Page 11 of 25 TECHNICIAN S REFERENCE GUIDE (Cont d) Power Measurements: 1) Power measurements shall be taken from a point between the power source and the unit under test (UUT). 2) Power measurements shall be recorded in watts and rounded to the nearest tenth of a watt. 3) Power measurements shall be recorded after instrument readings are stable to within 1% over a three-minute period. Dark Room Conditions: 1) Unless otherwise specified, the display screen illuminance measured with the UUT in Off Mode shall be less than or equal to 1.0 lux. Light Measurements: 1) Light measurements shall be performed with the Light Measurement Device (LMD) located at the center of, and perpendicular to, the display screen. 2) The LMD shall measure a rectangular area that is the greater of (1) an area each side of which is 10% as long as the corresponding side of the viewable screen area, or (2) 500 pixels. 3) The LMD measurement area shall be no larger than the illuminated screen area. UUT Configuration and Control: 1) As-shipped Condition: The UUT shall be tested in its as-shipped configuration. For products that offer a choice of user-configurable options, all options, including color controls, shall be set to their default conditions. 2) Peripherals: i), External devices shall not be connected to Universal Serial Bus (USB) ports. ii), Built-in speakers, TV tuners, and other product features and functions not specifically addressed by the ENERGY STAR eligibility criteria or test method may be configured in a minimum power configuration, as adjustable by the user. 3) Signal Interface: Displays that offer both an analog and a digital interface shall be tested with the analog interface. Resolution and Refresh Rate: 1) Fixed-pixel Displays: i), Pixel format shall be set to the native level. ii), Refresh rate shall be set to 60 Hz, unless a different default refresh rate is specified in the product manual, in which case the specified default refresh rate shall be used. 2) CRT Displays: i), Pixel format shall be set to the highest resolution that is designed to be driven at a 75 Hz refresh rate, as specified in the product manual. VESA Discrete Monitor Timing (DMT) or other industry standard pixel format timing shall be used for testing. ii), Refresh rate shall be set to 75 Hz. Battery Operated Products: For products designed to operate using batteries when not connected to the mains, the battery shall be fully charged before the start of testing and shall be left in place for the test.

Project: 11CA10499 File NC12272 Page 12 of 25 Tested by: Tested by: Test date: 2011-05-18 signature Sample # : 1102665-1~2, 1102667-1~2 1102668-1~2 Instrument Code / Range: print PRE-TEST UUT INITIALIZATION FOR ALL PRODUCTS METHOD Prior to the start of testing, the UUT shall be initialized as follows: 1) Set up the UUT per the instructions in the supplied operating manual. ENERGY STAR Program Requirements Product Specification for Display Test Method Clause 7 VESA FPDM Standard 2.0, sec. 301-2D or 305-3 2) Connect the power meter to the power source and connect the UUT to the power outlet on the power meter. 3) Set the ambient light level such that the measured display screen illuminance is less than 1 lux. 4) Power on the UUT and perform initial system configuration, as applicable. 5) Ensure that UUT settings are in their as-shipped configuration. 6) Warm up the UUT for at least 20 minutes and until the unit has completed initialization and is ready for use. 7) Measure and record the ac input voltage and frequency. 8) Measure and record the test room ambient temperature. RESULTS Warm Up the UUT Ambient Temperature, C 21 Relative Humidity, % 70 Input Voltage (V) Input Frequency (Hz) Start Time End Time 115 60 00 00 20 00 20 Warm up Period (mins)

Project: 11CA10499 File NC12272 Page 13 of 25 Tested by: Tested by: Test date: 2011-05-18 signature Sample # : 1102665-1~2, 1102667-1~2,1102668-1~2 Instrument Code / Range: print ON MODE POWER CONSUMPTION TEST (WITH VIEWABLE DIAGONAL SCREEN SIZE LESS THAN 30 INCHES) METHOD for Fixed-pixel Displays 1) If the UUT does not have ABC Enabled by Default: i) Ensure that the UUT has been initialized per Section 7. ENERGY STAR Program Requirements Product Specification for Display Test Method Clause 8 VESA FPDM Standard 2.0; VESA Video signal Standard (VSIS) Version 1.0, Rev. 2.0 ii) Display the VESA FPDM2, A112-2F, SET01K test pattern (8 shades of gray from full black (0 volts) to full white (0.7 volts)). iii) Verify that input signal levels conform to VESA Video Signal Standard (VSIS), Version 1.0, Rev. 2.0, December 2002. iv) With the brightness and contrast controls at maximum, verify that the white and near-white-grey levels can be distinguished. If necessary, adjust contrast controls until the white and near-white-grey levels can be distinguished v) Display the VESA FPDM2, A112-2H, L80 test pattern (full white (0.7 volts) box that occupies 80% of the image). vi) Ensure that the LMD measurement area falls entirely within the white portion of the test pattern. vii) Adjust the brightness control until the luminance of the white area of the screen is as specified in Table 3. If the UUT cannot achieve the specified luminance, set display luminance to the nearest achievable value. Table 3: Luminance Settings for On Mode Testing of Fixed- Pixel Displays Screen Resolution Luminance (Cd/m 2 ) Less than or equal to 1.1 MP resolution 175 Greater than 1.1 MP resolution 200 viii) Measure and record display luminance. Note: Following this point in the test procedure, dark room conditions are no longer required. ix) Measure and record On Mode power (PON) and total pixel format (horizontal x vertical). 2) If the UUT has ABC Enabled by Default: i) Ensure that the UUT has been initialized per Section 7. ii) Set the ambient light level to 300 lux, as measured at the face of the product s ambient light sensor. iii) Measure and record On Mode power in high ambient lighting conditions (PH) and total pixel format (horizontal x vertical). iv) Set the ambient light level to 0 lux, as measured at the face of the product s ambient light sensor. v) Measure and record On Mode power in low ambient lighting conditions (PL).

Project: 11CA10499 File NC12272 Page 14 of 25 Tested by: Tested by: Test date: 2011-05-18 signature print Sample # : 1102665-1~2 Instrument Code / Range: ON MODE POWER CONSUMPTION TEST (WITH VIEWABLE DIAGONAL SCREEN SIZE LESS THAN 30 INCHES) (Cont d) ENERGY STAR Program Requirements Product Specification for Display Test Method Clause 8 VESA FPDM Standard 2.0; VESA Video signal Standard (VSIS) Version 1.0, Rev. 2.0 RESULTS for Fixed-pixel Displays do not have ABC enabled by default Ambient Temperature, C 21 Relative Humidity, % 70 Sample No.: 1 UUT does not have ABC Enabled by Default Ambient illuminance (lux) 0 Required Input Voltage (V) Frequency (Hz) Voltage (V) Frequency (Hz) Current (A) Screen Resolution (MP) Measured Luminace (cd/m2) Power (PON, W) 115 60 115 60 0.095 0.48 176 4.9 800x600 230 50 230 50 0.061 0.48 176 5.4 800x600 100 50 100 50 0.106 0.48 175 4.9 800x600 100 60 100 60 0.105 0.48 176 4.9 800x600 TOTAL PIXEL FORMAT (HORIZONTAL X VERTICAL) The measured input power PON for ON mode of Fixed-pixel Displays exceeded did not exceed 9.45 Watt(s)* of Tier 1 Tier 2 requirements. Note (*) this value is derived from the Table 1 of Worksheet provided in this data sheet package. Supplemental Information: PO = 6*(r) + 0.05*(A) + 3 = 6*(800*600)/1000000 + 0.05*(9.75*7.3125) + 3 = 9.45 Watts 85% of the ENERGY STAR qualification limit (On mode) = 9.45*0.85 = 8.03 Watts Note: THD:0.26% Air speed:0.05m/s

Project: 11CA10499 File NC12272 Page 15 of 25 Tested by: Tested by: Test date: 2011-05-18 signature print Sample # : 1102667-1~2 Instrument Code / Range: ON MODE POWER CONSUMPTION TEST (WITH VIEWABLE DIAGONAL SCREEN SIZE LESS THAN 30 INCHES) (Cont d) ENERGY STAR Program Requirements Product Specification for Display Test Method Clause 8 VESA FPDM Standard 2.0; VESA Video signal Standard (VSIS) Version 1.0, Rev. 2.0 RESULTS for Fixed-pixel Displays do not have ABC enabled by default Ambient Temperature, C 21 Relative Humidity, % 70 Sample No.: 2 UUT does not have ABC Enabled by Default Ambient illuminance (lux) 0 Required Input Voltage (V) Frequency (Hz) Voltage (V) Frequency (Hz) Current (A) Screen Resolution (MP) Measured Luminace (cd/m2) Power (PON, W) 115 60 115 60 0.105 0.48 177 5.5 800x600 230 50 230 50 0.068 0.48 177 6.1 800x600 100 50 100 50 0.116 0.48 177 5.5 800x600 100 60 100 60 0.116 0.48 177 5.5 800x600 TOTAL PIXEL FORMAT (HORIZONTAL X VERTICAL) The measured input power PON for ON mode of Fixed-pixel Displays exceeded did not exceed 9.45 Watt(s)* of Tier 1 Tier 2 requirements. Note (*) this value is derived from the Table 1 of Worksheet provided in this data sheet package. Supplemental Information: PO = 6*(r) + 0.05*(A) + 3 = 6*(800*600)/1000000 + 0.05*(9.75*7.3125) + 3 = 9.45 Watts Note: THD:0.26% Air speed:0.05m/s

Project: 11CA10499 File NC12272 Page 16 of 25 Tested by: Tested by: Test date: 2011-05-18 signature print Sample # : 1102668-1~2 Instrument Code / Range: ON MODE POWER CONSUMPTION TEST (WITH VIEWABLE DIAGONAL SCREEN SIZE LESS THAN 30 INCHES) (Cont d) ENERGY STAR Program Requirements Product Specification for Display Test Method Clause 8 VESA FPDM Standard 2.0; VESA Video signal Standard (VSIS) Version 1.0, Rev. 2.0 RESULTS for Fixed-pixel Displays do not have ABC enabled by default Ambient Temperature, C 21 Relative Humidity, % 70 Sample No.: 3 UUT does not have ABC Enabled by Default Ambient illuminance (lux) 0 Required Input Voltage (V) Frequency (Hz) Voltage (V) Frequency (Hz) Current (A) Screen Resolution (MP) Measured Luminace (cd/m2) Power (PON, W) 115 60 115 60 0.055 0.48 176 2.9 800x600 230 50 230 50 0.05 0.48 176 4.3 800x600 100 50 100 50 0.057 0.48 175 2.8 800x600 100 60 100 60 0.057 0.48 175 2.8 800x600 TOTAL PIXEL FORMAT (HORIZONTAL X VERTICAL) The measured input power PON for ON mode of Fixed-pixel Displays exceeded did not exceed 9.45 Watt(s)* of Tier 1 Tier 2 requirements. Note (*) this value is derived from the Table 1 of Worksheet provided in this data sheet package. Supplemental Information: PO = 6*(r) + 0.05*(A) + 3 = 6*(800*600)/1000000 + 0.05*(9.75*7.3125) + 3 = 9.45 Watts Note: THD:0.26% Air speed:0.05m/s

Project: 11CA10499 File NC12272 Page 17 of 25 Tested by: Tested by: Test date: 2011-05-18 signature Sample # : 1102665-1~2, 1102667-1~2 1102668-1~2 Instrument Code / Range: print SLEEP MODE POWER CONSUMPTION TEST (ALL PRODUCTS) METHOD 1) At the conclusion of the Luminance test, initiate Sleep Mode. ENERGY STAR Program Requirements Product Specification for Display Test Method Clauses 8. 9 IEC 62301, ED 1.0 2) Document the method of adjustment and sequence of events required to reach Sleep Mode. 3) If the product has a variety of Sleep Modes that can be manually selected, measurements shall be performed in the most energy consumptive Sleep Mode. If the product automatically cycles through its various Sleep Modes, measurement time shall be long enough to obtain a true average of all Sleep Modes. 4) Measure and record Sleep Mode power (PSLEEP) according to the guidelines in IEC 62301, Ed. 1.0: a) Direct reading approach: this methodology may only be used where the mode and measured power are stable. A variation of less than 5 % in the measured power over 5 min is considered stable for the purposes of this standard. Instrument power readings may be used in this case. Connect the product to be tested to the metering equipment, and select the mode to be measured. After the product has been allowed to stabilize for at least 5 min, monitor the power consumption for not less than an additional 5 min. If the power level does not drift by more than 5 % (from the maximum value observed) during the latter 5 min, the load can be considered stable and the power can be recorded directly from the instrument at the end of the 5 min. If the power level drift by more than 5 % (from the maximum value observed) during the latter 5 min, the load shall be considered unstable. Average power is determined using either the Average power or Accumulated energy approaches outlined below: b) Average power approach: where the instrument can record a true average power over a user selected period, the period selected shall not be less than 5 min (except if there is an operating cycle see below). c) Accumulated energy approach: where the instrument can accumulate energy over a user selected period, the period selected shall not be less than 5 min (except if there is an operating cycle see below). The integrating period shall be such that the total recorded value for energy and time is more than 200 times the resolution of the meter for energy and time. Determine the average power by dividing the accumulated energy by the time for the monitoring period.

Project: 11CA10499 File NC12272 Page 18 of 25 Tested by: Tested by: Test date: 2011-05-18 signature print Sample # : 1102665-1~2 Instrument Code / Range: SLEEP MODE POWER CONSUMPTION TEST (ALL PRODUCTS) (Cont d) ENERGY STAR Program Requirements Product Specification for Display Test Method Clause 8, 9 IEC 62301, ED 1.0 RESULTS (Cont d): Method C for Accumulated Energy Ambient Temperature, C 21 Relative Humidity, % 70 Sample No.: 1 Voltage (V) Input Required Measured Calculated Elapsed Time Time elapsed to enter standby from Wh Frequency Voltage Freq Power on mode w/o Interval, (Hz) (V) (Hz) (mwh) video/audio minutes *P SLEEP (W) Start End input (minutes) 100 50 100 50 0.15 53 5 0.636 0 00 5 00 100 60 100 60 0.15 53 5 0.636 0 00 5 00 115 60 115 60 0.15 53 5 0.636 0 00 5 00 220 50 -- -- -- -- -- -- -- -- 230 50 230 50 0.15 57 5 0.684 0 00 5 00 * The P SLEEP is calculated by the following equation: P SLEEP (Watts) = (Wh X 60 minutes/hr)/(wh Interval, minutes) The measured input power PSLEEP for SLEEP mode of the Display exceeded did not exceed 1 Watt(s)* of Tier 1 Tier 2 requirements. Note (*) this value is derived from the Table 2 of Worksheet provided in this data sheet package. Supplemental Information: 85% of the ENERGY STAR qualification limit (Sleep mode) = 1*0.85 = 0.85 Watt Note: THD:0.26% Air speed:0.05m/s

Project: 11CA10499 File NC12272 Page 19 of 25 Tested by: Tested by: Test date: 2011-05-18 signature print Sample # : 1102667-1~2 Instrument Code / Range: SLEEP MODE POWER CONSUMPTION TEST (ALL PRODUCTS) (Cont d) ENERGY STAR Program Requirements Product Specification for Display Test Method Clause 8, 9 IEC 62301, ED 1.0 RESULTS (Cont d): Method C for Accumulated Energy Ambient Temperature, C 21 Relative Humidity, % 70 Sample No.: 2 Voltage (V) Input Required Measured Calculated Elapsed Time Time elapsed to enter standby from Wh Frequency Voltage Freq Power on mode w/o Interval, (Hz) (V) (Hz) (mwh) video/audio minutes *P SLEEP (W) Start End input (minutes) 100 50 100 50 0.15 0.054 5 0.648 0 00 5 00 100 60 100 60 0.15 0.054 5 0.648 0 00 5 00 115 60 115 60 0.15 0.053 5 0.636 0 00 5 00 220 50 -- -- -- -- -- -- -- -- 230 50 230 50 0.15 0.057 5 0.684 0 00 5 00 * The P SLEEP is calculated by the following equation: P SLEEP (Watts) = (Wh X 60 minutes/hr)/(wh Interval, minutes) The measured input power PSLEEP for SLEEP mode of the Display exceeded did not exceed 1 Watt(s)* of Tier 1 Tier 2 requirements. Note (*) this value is derived from the Table 2 of Worksheet provided in this data sheet package. Supplemental Information: N/A Note: THD:0.26% Air speed:0.05m/s

Project: 11CA10499 File NC12272 Page 20 of 25 Tested by: Tested by: Test date: 2011-05-18 signature print Sample # : 1102668-1~2 Instrument Code / Range: SLEEP MODE POWER CONSUMPTION TEST (ALL PRODUCTS) (Cont d) ENERGY STAR Program Requirements Product Specification for Display Test Method Clause 8, 9 IEC 62301, ED 1.0 RESULTS (Cont d): Method C for Accumulated Energy Ambient Temperature, C 21 Relative Humidity, % 70 Sample No.: 3 Voltage (V) Input Required Measured Calculated Elapsed Time Time elapsed to enter standby from Wh Frequency Voltage Freq Power on mode w/o Interval, (Hz) (V) (Hz) (mwh) video/audio minutes *P SLEEP (W) Start End input (minutes) 100 50 100 50 0.15 0.051 5 0.612 0 00 5 00 100 60 100 60 0.15 0.051 5 0.612 0 00 5 00 115 60 115 60 0.15 0.05 5 0.6 0 00 5 00 220 50 -- -- -- -- -- -- -- -- 230 50 230 50 0.15 0.052 5 0.624 0 00 5 00 * The P SLEEP is calculated by the following equation: P SLEEP (Watts) = (Wh X 60 minutes/hr)/(wh Interval, minutes) The measured input power PSLEEP for SLEEP mode of the Display exceeded did not exceed 1 Watt(s)* of Tier 1 Tier 2 requirements. Note (*) this value is derived from the Table 2 of Worksheet provided in this data sheet package. Supplemental Information: N/A Note: THD:0.26% Air speed:0.05m/s

Project: 11CA10499 File NC12272 Page 21 of 25 Tested by: Tested by: Test date: 2011-05-18 signature Sample # : 1102665-1~2, 1102667-1~2 1102668-1~2 Instrument Code / Range: print OFF MODE POWER CONSUMPTION TEST (ALL PRODUCTS) METHOD ENERGY STAR Program Requirements Product Specification for Display Test Method Clauses 8. 9 IEC 62301, ED 1.0 1) At the conclusion of the Sleep Mode test, initiate Off Mode via the most easily accessible power switch. 2) Document the method of adjustment and sequence of events required to reach Off Mode. 3) Any input sync signal check cycle may be ignored when measuring Off Mode power. 4) Measure and record Off Mode power (POFF) according to the guidelines in IEC 62301, Ed. 1.0: a) Direct reading: this methodology may only be used where the mode and measured power are stable. A variation of less than 5 % in the measured power over 5 min is considered stable for the purposes of this standard. Instrument power readings may be used in this case. Connect the product to be tested to the metering equipment, and select the mode to be measured. After the product has been allowed to stabilize for at least 5 min, monitor the power consumption for not less than an additional 5 min. If the power level does not drift by more than 5 % (from the maximum value observed) during the latter 5 min, the load can be considered stable and the power can be recorded directly from the instrument at the end of the 5 min. If the power level drift by more than 5 % (from the maximum value observed) during the latter 5 min, the load shall be considered unstable. Average power is determined using either the Average power or Accumulated energy approaches outlined below: b) Average power approach: where the instrument can record a true average power over a user selected period, the period selected shall not be less than 5 min (except if there is an operating cycle see below). c) Accumulated energy approach: where the instrument can accumulate energy over a user selected period, the period selected shall not be less than 5 min (except if there is an operating cycle see below). The integrating period shall be such that the total recorded value for energy and time is more than 200 times the resolution of the meter for energy and time. Determine the average power by dividing the accumulated energy by the time for the monitoring period.

Project: 11CA10499 File NC12272 Page 22 of 25 Tested by: Tested by: Test date: 2011-05-18 signature print Sample # : 1102665-1~2 Instrument Code / Range: OFF MODE POWER CONSUMPTION TEST (ALL PRODUCTS) (Cont d) ENERGY STAR Program Requirements Product Specification for Display Test Method Clauses 8, 9 IEC 62301, ED 1.0 RESULTS (Cont d): Method C for Accumulated Energy Ambient Temperature, C 21 Relative Humidity, % 70 Sample No.: 1 Voltage (V) Input Required Measured Calculated Elapsed Time Time elapsed to enter standby from Wh Frequency Voltage Freq Power on mode w/o Interval, (Hz) (V) (Hz) (mwh) video/audio minutes *P SLEEP (W) Start End input (minutes) 100 50 100 50 0.15 50 5 0.6 0 00 5 00 100 60 100 60 0.15 50 5 0.6 0 00 5 00 115 60 115 60 0.15 50 5 0.6 0 00 5 00 220 50 -- -- -- -- -- -- -- -- 230 50 230 50 0.15 56 5 0.672 0 00 5 00 * The P SLEEP is calculated by the following equation: P SLEEP (Watts) = (Wh X 60 minutes/hr)/(wh Interval, minutes) The measured input power PSLEEP for SLEEP mode of the Display exceeded did not exceed 1 Watt(s)* of Tier 1 Tier 2 requirements. Note (*) this value is derived from the Table 2 of Worksheet provided in this data sheet package. Supplemental Information: 85% of the ENERGY STAR qualification limit (Off mode) = 1*0.85 = 0.85 Watt Note: THD:0.26% Air speed:0.05m/s

Project: 11CA10499 File NC12272 Page 23 of 25 Tested by: Tested by: Test date: 2011-05-18 signature print Sample # : 1102667-1~2 Instrument Code / Range: OFF MODE POWER CONSUMPTION TEST (ALL PRODUCTS) (Cont d) ENERGY STAR Program Requirements Product Specification for Display Test Method Clauses 8, 9 IEC 62301, ED 1.0 RESULTS (Cont d): Method C for Accumulated Energy Ambient Temperature, C 21 Relative Humidity, % 70 Sample No.: 2 Voltage (V) Input Required Measured Calculated Elapsed Time Time elapsed to enter standby from Wh Frequency Voltage Freq Power on mode w/o Interval, (Hz) (V) (Hz) (mwh) video/audio minutes *P SLEEP (W) Start End input (minutes) 100 50 100 50 0.15 0.051 5 0.612 0 00 5 00 100 60 100 60 0.15 0.051 5 0.612 0 00 5 00 115 60 115 60 0.15 0.05 5 0.6 0 00 5 00 220 50 -- -- -- -- -- -- -- -- 230 50 230 50 0.15 0.057 5 0.684 0 00 5 00 * The P SLEEP is calculated by the following equation: P SLEEP (Watts) = (Wh X 60 minutes/hr)/(wh Interval, minutes) The measured input power PSLEEP for SLEEP mode of the Display exceeded did not exceed 1 Watt(s)* of Tier 1 Tier 2 requirements. Note (*) this value is derived from the Table 2 of Worksheet provided in this data sheet package. Supplemental Information: N/A Note: THD:0.26% Air speed:0.05m/s

Project: 11CA10499 File NC12272 Page 24 of 25 Tested by: Tested by: Test date: 2011-05-18 signature print Sample # : 1102668-1~2 Instrument Code / Range: OFF MODE POWER CONSUMPTION TEST (ALL PRODUCTS) (Cont d) ENERGY STAR Program Requirements Product Specification for Display Test Method Clauses 8, 9 IEC 62301, ED 1.0 RESULTS (Cont d): Method C for Accumulated Energy Ambient Temperature, C 21 Relative Humidity, % 70 Sample No.: 3 Voltage (V) Input Required Measured Calculated Elapsed Time Time elapsed to enter standby from Wh Frequency Voltage Freq Power on mode w/o Interval, (Hz) (V) (Hz) (mwh) video/audio minutes *P SLEEP (W) Start End input (minutes) 100 50 100 50 0.15 0.048 5 0.576 0 00 5 00 100 60 100 60 0.15 0.048 5 0.576 0 00 5 00 115 60 115 60 0.15 0.046 5 0.552 0 00 5 00 220 50 -- -- -- -- -- -- -- -- 230 50 230 50 0.15 0.049 5 0.588 0 00 5 00 * The P SLEEP is calculated by the following equation: P SLEEP (Watts) = (Wh X 60 minutes/hr)/(wh Interval, minutes) The measured input power PSLEEP for SLEEP mode of the Display exceeded did not exceed 1 Watt(s)* of Tier 1 Tier 2 requirements. Note (*) this value is derived from the Table 2 of Worksheet provided in this data sheet package. Supplemental Information: N/A Note: THD:0.26% Air speed:0.05m/s

Project: 11CA10499 File NC12272 Page 25 of 25 WORKSHEETS

NOTICE OF COMPLIANCE 2011-05-20 Ms. Lily Huang Advantech Co., Ltd. 1 Aly 20 Ln 26, Rueiguang Rd., Neihu District Taipei, 114 Taiwan Project: 11CA10499 P.O. Number: Product Type: Display Model(s): FPM-3121G-R3AE, FPM-8121H-R3AE, FPM-3121G-X0AE Dear Ms. Huang: The Energy Efficiency investigation of your product has been completed under the above project number and the subject product was determined to comply with the following ENERGY STAR Program Requirements: ENERGY STAR: Program Requirements for Displays, Version 5.1 Products that bear the ENERGY STAR mark shall be identical to those that were evaluated by UL and found to comply with ENERGY STAR requirements. If changes in construction will be implemented that could potentially alter the energy consumption of these products, these must be reported to UL for review. Thank you for your business, and we hope UL will continue to be your ENERGY STAR partner of choice. Sincerely, Reviewed by: Michael Shows Matt Overbee Global Program Manager, Energy Efficiency Certification Office Manager, Energy Efficiency Tel: 1.972.509.1281 Tel: 1.847.664.1471 Fax: 1.847.574.4019 Fax: 1.847.407.1471 E-mail: Michael.Shows@us.ul.com E-mail: Matt.Overbee@us.ul.com

ENERGY EFFICIENCY CERTIFICATION (EEC):Test Report - Cover Page Customer Name: Address: Advantech Co., Ltd. 1 ALY 20 LN 26, Rueiguang Rd., Neihu District Taipei, 114 Taiwan Brand name(s): Model name(s): Product category: Advantech FPM-3121G-R3AE, FPM-8121H-R3AE, FPM-3121G-X0AE Display Electrical Ratings: I/P: 12Vdc, 4.75A Representative (tested) Model: Model differences: Construction details: FPM-3121G-R3AE Model FPM-3121G-R3AE is identical to FPM-8121H-R3AE except for model designation. Model FPM-3121G-R3AE is similar to model FPM-3121G-X0AE except for model designation and model 3121G-R3AE has touch panel function. Construction details are specified in E180881-A328 UL Safety report. The Sample(s) tested is(are) compliant with the following applied standards/regulations: ENERGY STAR : ENERGY STAR Program Requirements for Displays Version 5.1 UL Project No.: 11CA10499 Project Handler: Alfred Lee Reviewed by: Shivani Vyas Issued: 2011-05-20 Revised: N/A (yyyy-mm-dd) (yyyy-mm-dd) The information and documentation involving UL Mark services are provided on behalf of Underwriters Laboratories Inc. (UL) or any authorized licensee of UL. The test results apply and cover only to the actual samples tested. 1

ATTACHMENT(S) - Model FPM-3121G-R3AE was used for testing purposes and it represents the completed series as specified on the cover page of this test report. - All tests were conducted on model FPM-3121G-R3AE with External Power Supply (EPS), Manufacture Sinpro Electronics Co., Ltd. Model SPU63-105. - Model Differences: Model FPM-3121G-R3AE is identical to FPM-8121H-R3AE except for model designation. Model FPM-3121G-R3AE is similar to model FPM-3121G-X0AE except for model designation and model 3121G-R3AE has touch panel function. - Authorized Manufacturing Locations are specified in the Authorization Page of Volume X2 of File E180881. - The test results presented in this report relate only to the object tested. - This report shall not be reproduced, except in full, without the written approval of the Issuing testing laboratory. The information and documentation involving UL Mark services are provided on behalf of Underwriters Laboratories Inc. (UL) or any authorized licensee of UL. The test results apply and cover only to the actual samples tested. 2

ATTACHMENT(S) Photographs of LCD Monitor, Model(s) FPM-3121G-R3AE, FPM-8121H-R3AE, FPM-3121G-X0AE The information and documentation involving UL Mark services are provided on behalf of Underwriters Laboratories Inc. (UL) or any authorized licensee of UL. The test results apply and cover only to the actual samples tested. 3

ATTACHMENT(S) Photograph of External Power Supply, Manufacture Sinpro Electronics Co., Ltd. Model(s) SPU63-105 The information and documentation involving UL Mark services are provided on behalf of Underwriters Laboratories Inc. (UL) or any authorized licensee of UL. The test results apply and cover only to the actual samples tested. 4

ATTACHMENT(S) Marking plate(s) of LCD Monitor, Model(s) FPM-3121G-R3AE, FPM-8121H-R3AE, FPM-3121G-X0AE The information and documentation involving UL Mark services are provided on behalf of Underwriters Laboratories Inc. (UL) or any authorized licensee of UL. The test results apply and cover only to the actual samples tested. 5