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Troubleshooting
Related Manuals for Sensata Magnum-Dimensions MagnaSine MS-G Series
Summary of Contents for Sensata Magnum-Dimensions MagnaSine MS-G Series
- Page 1 MS-G Series Pure Sine Wave Inverter/Chargers Owner’s Manual...
- Page 2 This MS-G Series inverter/charger was proudly assembled and tested in the United States at our facility in Everett, Washington. At Sensata, we are committed to providing you with quality products and services, and hope that your experience with us is pleasant and professional.
- Page 3 Safety Information IMPORTANT SAFETY INSTRUCTIONS SAVE THESE INSTRUCTIONS THIS MANUAL CONTAINS IMPORTANT INSTRUCTIONS FOR THE MS-G SERIES INVERTER/CHARGER THAT SHALL BE FOLLOWED DURING THE INSTALLATION AND OPERATION OF THIS PRODUCT. Before using the MS-G Series, read all instructions and cautionary markings. Also, be sure to review the individual manuals provided for each component of the system.
- Page 4 If installed in a vehicle/boat, the batteries must be mounted upright (if using liquid batteries) and securely fastened. The location must be fully accessible and protected from exposure to heat-producing devices, and away from any fuel tanks. Page iii © 2015 Sensata Technologies...
- Page 5 Safety Information CONSIGNES DE SÉCURITÉ IMPORTANTES CE MANUEL CONTIENT DE IMPORTANTES POUR LA SÉRIE MS-G ONDULEUR/CHARGEUR QUI DOIVENT ETRE SUIVIES PENDANT L’INSTALLATION ET FONCTIONNEMENT DE CE PRODUIT. Avant d’utiliser la série MS-G, lire toutes les instructions etles mises en garde. Aussi, n’oubliez pas depasser en revue les différents manuels fournispour chaque composant du système.
- Page 6 être monté en position verticale (si vous utilisez des piles liquides) et solidement fi xés. L’emplacement doit être pleinement accessible et protégé contre l’exposition à la chaleur la fabrication de dispositifs, et loin de toute réservoirs de carburant. CONSERVER CES INSTRUCTIONS Page v © 2015 Sensata Technologies...
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Page 7: Table Of Contents
Table 3-1, Inverter Battery Turn On/Off Levels ..............46 Table 3-2, Inverter/Charger Default Values* ..............48 Table 3-3, Inverter Compatibility Level ................50 Table 4-1, Basic Troubleshooting ..................52 Table C-1, Typical Appliance Power Consumption .............. 62 Page vi © 2015 Sensata Technologies... - Page 8 Figure B-1, Series Battery Wiring ...................59 Figure B-2, Parallel Battery Wiring .................59 Figure B-3, Series-Parallel Battery Wiring ...............59 Figure B-4, Battery Bank Wiring Examples (12-volt) ............60 Figure B-5, Battery Bank Wiring Examples (24-volt) ............61 Figure C-1, AC Waveforms ....................62 © 2015 Sensata Technologies Page vii...
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Page 9: 1.0 Introduction
Introduction 1.0 Introduction Congratulations on your purchase of a MS-G Series inverter/charger from Sensata. The MS-G Series products include the MS2000-G, MS2012-G, MS2812-G, and MS4024-G inverters; all are under the Magnum-Dimensions brand from Sensata Technologies. The MS-G Series is a “pure”... -
Page 10: How An Ms-G Series Inverter/Charger Works
Accessories such as the Advanced Remote Control (ME-ARC), Standard Remote Control (ME-RC), Automatic Generator Start – Networked (ME-AGS-N), and Battery Monitor Kit (ME-BMK) can be used (see Section A-4 in Appendix A). © 2015 Sensata Technologies Page 2... -
Page 11: Features And Benefi Ts
Network Connection Port (green label – RJ11 connection) Remote Connection Port (blue label – RJ11 connection) Battery Temperature Sensor Port (yellow label – RJ11 connection) Figure 1-1, Power Switch, Status LED, and Accessory Connection Ports Page 3 © 2015 Sensata Technologies... -
Page 12: Figure 1-2, Electrical Connection Points
Intake Air Vents (and on right front side) Positive (+) DC Terminal (under cover) Negative (–) AC Entry/ DC Terminal Exit (under cover) Connections Mounting DC Equipment Flange Ground Terminal Figure 1-2, Electrical Connection Points © 2015 Sensata Technologies Page 4... -
Page 13: Figure 1-3, Left Side Features
AC Access Cover Model/Serial Number Label GFCI Exhaust Air Vents (back and right side) GFCI Output HOT 1 Input Circuit Breaker Circuit Breaker Figure 1-3, Left Side Features Page 5 © 2015 Sensata Technologies... -
Page 14: 2.0 Installation
If items appear to be missing or damaged, contact your Magnum product authorized dealer or Sensata. If at all possible, keep your shipping box to help protect your inverter from damage if it ever needs to be returned for service. Save your proof-of-purchase as a record of your ownership;... -
Page 15: Figure 2-1, Simplifi Ed Installation For Permanent Installations (Ms2012-G)
(breaker or DC Shunt fuse/switch) 120/ 240VAC power to inverter ME-BMK Battery Monitor with shunt (Magnum Accessory) ME-SBC Smart Battery Combiner (Magnum Battery Bank Accessory) Figure 2-1, Simplifi ed Installation for Permanent Installations (MS2012-G) Page 7 © 2015 Sensata Technologies... -
Page 16: Figure 2-2, Simplifi Ed Installation For Permanent Installations (Ms2000-G)
DC Overcurrent Protection 120VAC (breaker or fuse/switch) power to inverter ME-BMK Battery Monitor with shunt (Magnum Accessory) ME-SBC Smart Battery Combiner (Magnum Accessory) Battery Bank Figure 2-2, Simplifi ed Installation for Permanent Installations (MS2000-G) © 2015 Sensata Technologies Page 8... - Page 17 Away from sensitive electronic equipment – High powered inverters can generate levels of RFI (Radio Frequency Interference). Locate any electronic equipment susceptible to radio frequency and electromagnetic interference as far away from the inverter as possible. Page 9 © 2015 Sensata Technologies...
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Page 18: Mounting The Inverter
The MP- HOOD inverter hood prevents items from falling inside causing damage to the inverter. Info: Sensata provides a backplate for mounting the inverter. These backplates also provide the ability to mount the MMP Series enclosure (PN: BP-MMP). -
Page 19: Figure 2-4, Ms-G Series Dimensions (Ms2012-G, Ms2812-G, Ms4024-G)
Installation Figure 2-4, MS-G Series Dimensions (MS2012-G, MS2812-G, MS4024-G) Page 11 © 2015 Sensata Technologies... -
Page 20: Figure 2-5, Ms-G Series Dimensions (Ms2000-G)
Installation Figure 2-5, MS-G Series Dimensions (MS2000-G) © 2015 Sensata Technologies Page 12... -
Page 21: Wiring The Inverter - General Requirements
The AC and DC wires to and from the inverter must be protected as required by code. This can be done by using jacketed wires or by feeding the wires through conduit. Sensata offers a DC conduit box (ME-CB or MPX-CB) and a single inverter enclosure (MMP Series) that include the necessary AC and DC inverter breakers that allow both the AC and DC conduit to be connected to the inverter. -
Page 22: Dc Wiring
• A brief spark or arc may occur when connecting the battery cables to the inverter DC terminals; this is normal and due to the inverter’s internal capacitors being charged. © 2015 Sensata Technologies Page 14... -
Page 23: Figure 2-6, Dc And Battery Temperature Sensor Wiring
DC busbars). Battery Bank’s Equipment Ground Wire Battery Bank’s Negative Cable Battery Bank’s Positive Cable DC System Grounding point [Electrode Conductor (i.e., ground busbar)] Battery Bank Figure 2-6, DC and Battery Temperature Sensor Wiring Page 15 © 2015 Sensata Technologies... -
Page 24: Table 2-1, Recommended Dc Wire/Overcurrent Device For Rated Use
– Per the NEC, the DC grounding electrode conductor can be a #6 AWG conductor if that is the only connection to the grounding electrode and that grounding electrode is a rod, pipe, or plate electrode. Note – May not allow continuous operation at full rated power as defi ned by the NEC. © 2015 Sensata Technologies Page 16... -
Page 25: Table 2-2, Dc Wire Size For Increased Distance
(5/16–18 bolt, (with ring lug) Kep nut and battery post. 5/8" usable length) battery battery cable post (with ring lug) Figure 2-7, Battery Hardware Figure 2-8, Inverter DC Hardware Installation Installation Page 17 © 2015 Sensata Technologies... -
Page 26: Figure 2-9, Battery Temperature Sensor
3. Connect the RJ11 connector end of the BTS cable to the yellow-labeled BTS port on the inverter (Figure 1-1, Item 6). FRONT VIEW ~2" ~1" (~5.1 cm) (~2.54 cm) SIDE VIEW ~¾” ~½” Cable (~1.3 cm) (~1.9 cm) 0.375" diameter (~.95 cm) Figure 2-9, Battery Temperature Sensor © 2015 Sensata Technologies Page 18... - Page 27 8. Attach the red and black terminal covers over the inverter’s DC connectors and secure them in place with the supplied screws. 9. If the batteries are in an enclosure, perform a fi nal check of the connections to the battery terminals, then close and secure the battery enclosure. Page 19 © 2015 Sensata Technologies...
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Page 28: Ac Wiring
2.5.3 Recommended GFCI (Ground Fault Circuit Interruption) Outlets In compliance with UL standards, Sensata has tested the following GFCIs and fi nd that they function properly when connected to the inverter’s AC output: •... -
Page 29: Figure 2-10, Ac Terminal Block (Ms2012-G/Ms2812-G/Ms4024-G)
AC ground terminal to the input and output ground connections. HOT 2 IN HOT 1 IN HOT 2 OUT NEUT IN NEUT 2 OUT AC GROUND (In & Out) Figure 2-10, AC Terminal Block (MS2012-G/MS2812-G/MS4024-G) Page 21 © 2015 Sensata Technologies... - Page 30 3. After verifying all AC connections are correct and all inverter AC terminal screws are torqued to 16 lbf-in (1.8 N-m), replace the AC wiring access cover and the covers on the main electrical/ distribution panel. © 2015 Sensata Technologies Page 22...
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Page 31: Table 2-3, Ac Input/Output Wiring Configurations
– If two legs of 30A @ 120 VAC are used, they must be from the same source (i.e., have a common neutral). For example, 2 legs from a 3-phase source can be used. Page 23 © 2015 Sensata Technologies... -
Page 32: Figure 2-11, Ac Wiring For A Single In Confi Guration
In mobile installations: neutral is typically not connected to ground in main panel. ..Maximum.. 30-amp breaker (single pole) required to inverter AC input Main Panel (Utility/Generator Input) Figure 2-11, AC Wiring for a Single In Confi guration © 2015 Sensata Technologies Page 24... -
Page 33: Figure 2-12, Ac Wiring For Single In (30A) - Single Out Confi Guration
NOTE: In mobile installations, the neutral is typically not connected to ground in main panel. Direct from Inverter Main Panel (Inverter Loads) (Utility/Generator Input) Figure 2-12, AC Wiring for Single In (30A) – Single Out Confi guration Page 25 © 2015 Sensata Technologies... -
Page 34: Figure 2-13, Ac Wiring For Single In (50A) - Single Out Confi Guration
NOTE: In mobile installations, the neutral is typically not connected to ground in main panel. Sub-Panel and Outlets Main Panel (Inverter Loads) (Utility/Generator Input) Figure 2-13, AC Wiring for Single In (50A) – Single Out Confi guration © 2015 Sensata Technologies Page 26... -
Page 35: Figure 2-14, Ac Wiring For Dual In - Single Out Confi Guration
NOTE: In mobile installations, the neutral is typically not connected to ground in main panel. Sub-Panel and Outlet Main Panel (Inverter Loads) (Utility/Generator Input) Figure 2-14, AC Wiring for Dual In – Single Out Confi guration Page 27 © 2015 Sensata Technologies... - Page 36 2. Verify strain reliefs or grommets are in place to prevent damage to the wiring or conduit where it passes through walls/bulkheads or other openings. 3. After verifying all AC connections are securely fastened, replace the AC wiring access cover and the covers to the main electrical/distribution panel. © 2015 Sensata Technologies Page 28...
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Page 37: Table 2-4, Ac Input/Output Wiring Configurations (Ms2000-G Models)
(GFCI outlet) (HOT 1 OUT) 20A @ 120 VAC = 2400W (GFCI outlet) Wiring Diagram Figure 2-15 Figure 2-16 Note – AC Source is from either the utility/grid power (i.e., shorepower) or an AC generator. Page 29 © 2015 Sensata Technologies... -
Page 38: Figure 2-15, Ac Wiring For A Single In Confi Guration (Ms2000-G)
In mobile installations: neutral is typically not connected to ground in the main panel. .Maximum 30-amp breaker (single pole) required to inverter AC input. Main Panel (Utility/Generator Input) Figure 2-15, AC Wiring for a Single In Confi guration (MS2000-G) © 2015 Sensata Technologies Page 30... -
Page 39: Figure 2-16, Ac Wiring For A Single In - Single Out Confi Guration (Ms2000-G)
NOTE: In mobile installations, the neutral is typically not connected to ground in main panel. Main Panel Sub-Panel and Outlet (Utility/Generator Input) (Inverter Loads) Figure 2-16, AC Wiring for a Single In – Single Out Confi guration (MS2000-G) Page 31 © 2015 Sensata Technologies... -
Page 40: Grounding Inverters
Neutral Negative AC Ground DC Ground Grounding GEC-AC GEC-DC System Grounding Electrode Grounding Electrode Grounding Electrode (AC side dedicated) (AC and DC sides shared) (DC side dedicated) Figure 2-17, Grounding System for MS-G Series © 2015 Sensata Technologies Page 32... -
Page 41: Table 2-5, Ac Grounding Electrode Conductor Sizing
AC Ground DC Ground EGC - AC EGC - DC Grounding GEC-DC System GEC-AC Grounding Electrode Grounding Electrode (AC side dedicated) (DC side dedicated) Figure 2-18, Multiple Connections to DC Ground Rod (Method 1) Page 33 © 2015 Sensata Technologies... -
Page 42: Figure 2-19, Multiple Connections To Dc Ground Rod (Method 2)
Positive Neutral Negative Neutral Negative AC Ground DC Ground EGC - AC EGC - DC Grounding GEC-AC System GEC-DC Grounding Electrode (DC side dedicated) Figure 2-20, Single Connection to DC Ground Rod (Method 3) © 2015 Sensata Technologies Page 34... -
Page 43: Table 2-6, Equipment Grounding Conductor Sizing
(3.3 mm #12 AWG 30-60 amps (5.3 mm #10 AWG (8.4 mm 100 amps #8 AWG 200 amps (13.3 mm #6 AWG (21.1 mm 300 amps #4 AWG 400 amps (26.6 mm #3 AWG Page 35 © 2015 Sensata Technologies... - Page 44 Note – The onboard neutral is not directly connected to safety ground on the dock if an isolation transformer is installed. Note – See the ABYC Standard for complete AC/DC grounding requirements. © 2015 Sensata Technologies Page 36...
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Page 45: Figure 2-21, Neutral-To-Ground Connection (Inverter Mode)
Figure 2-22, Neutral-to-Ground Connection (Inverter Mode) Connection (Standby Mode) * – Normally located in the AC compartment; however, on the MS2000-G model the neutral-to-ground is located internally on the AC board and cannot be disconnected. Page 37 © 2015 Sensata Technologies... -
Page 46: Figure 2-23, Disconnecting The Neutral-To-Ground Connection
5. Place the washer and nut on the bolt over the Figure 2-24, Connecting a Large DC ground cable and securely tightened the nut Ground Wire [from 4 to 5 lbf-in (5.4 to 6.8 N-m)]. © 2015 Sensata Technologies Page 38... -
Page 47: Inverter Notifi Cation Requirements
4. Replace the covers on the main electrical/distribution panel. 5. Replace the chassis access cover. 6. Verify the inverter’s front panel switch is in the “OFF” position. Important: If required by code, have the installation inspected by an electrical inspector. Page 39 © 2015 Sensata Technologies... -
Page 48: Functional Test
Ground < 0.5 Vac Note: For ease of viewing, Note: For ease of viewing, GFCI not pictured. GFCI not pictured. Figure 2-26, AC Voltage Checks Figure 2-27, AC Voltage Checks (MS2012-G model) (MS2000-G model) © 2015 Sensata Technologies Page 40... -
Page 49: 3.0 Operation
INPUT (30A) AC NEU OUT AC NEU IN AC GROUND Neutral-Ground Transfer Relay GFCI 120 VAC OUTPUT DC NEGATIVE DC POSITIVE FET Bridge Power Transformer Figure 3-1, Power Flow – Inverter Mode (MS2012-G/2812-G/4024-G models) Page 41 © 2015 Sensata Technologies... -
Page 50: Standby Mode
INPUT (30A) AC NEU OUT AC NEU IN AC GROUND Neutral-Ground Transfer Relay GFCI 120 VAC OUTPUT DC NEGATIVE DC POSITIVE FET Bridge Power Transformer Figure 3-3, Power Flow – Standby Mode (MS2012-G/2812-G/4024-G models) © 2015 Sensata Technologies Page 42... -
Page 51: Battery Charging
This is caused by: 1) The internal temperature is too hot – the charger automatically reduces the charge rate to maintain temperature; or 2) The AC input voltage falls below 90 VAC – the charger will stop charging to help stabilize the incoming AC voltage. Page 43 © 2015 Sensata Technologies... -
Page 52: Figure 3-5, Automatic 4-Stage Charging Graph
Voltage Voltage Voltage Voltage Time Goes to Full Charge after Charge 4 hours in Rate Absorb Current Float Charge Time Monitored Constant Reduced No Current Current Current Current Figure 3-5, Automatic 4-Stage Charging Graph © 2015 Sensata Technologies Page 44... -
Page 53: Transfer Time
No Change No Change -0.15 -0.15V -0.3V -0.3 -0.3V -0.6V -0.45 -0.45V -0.9V -0.6 -0.6V -1.2V -0.75 -0.75V -1.5V 104F 113F 122F Temperature reading from BTS Figure 3-6, BTS Temperature to Charge Voltage Change Page 45 © 2015 Sensata Technologies... -
Page 54: Protection Circuitry Operation
LBCO* 10.0 VDC 10.0 VDC 20.0 VDC (1 minute delay) (9.0 - 12.2 VDC) (9.0 - 12.2 VDC) (18.0 - 24.4 VDC) LBCO (immediate) 8.5 VDC 8.5 VDC 17.0 VDC *adjustable with remote control © 2015 Sensata Technologies Page 46... -
Page 55: Inverter Startup
AC power that is connected to the inverter’s input is passing through the inverter and is powering the AC loads connected to the inverter’s output). Power ON/OFF pushbutton switch Charging/Inverting Status LED indicator Figure 3-7, Power Switch and Status Indicator Page 47 © 2015 Sensata Technologies... -
Page 56: Factory Default Values
* – These are the MS-G’s default values without a remote control connected. If a remote is connected, the remote settings are saved in the inverter even if the remote is disconnected— until all power to the inverter is removed. © 2015 Sensata Technologies Page 48... -
Page 57: Using The Gfci
3. If the GFCI outlet continues to trip, the device is performing its intended protection function; which means that a hazardous condition could exist. A qualifi ed electrician should be called to evaluate the circuit. Page 49 © 2015 Sensata Technologies... -
Page 58: 3.10 Inverter Fan Operation
Required’ on the remote compatibility matrix on our website, then your inverter can support the device setting/feature you want. If your inverter does not have the required compatibility level for a feature/setting you want, contact Sensata to determine if there is a software upgrade option for your inverter. -
Page 59: 4.0 Maintenance And Troubleshooting
Disable the AGS (if installed) when the RV, boat, or truck is in a confi ned storage area WARNING: If an AGS were to start and run the generator for an extended period of time in a confi ned area, a potentially fatal level of CO (Carbon Monoxide) could accumulate. Page 51 © 2015 Sensata Technologies... -
Page 60: Troubleshooting
This is normal; see Section 3.5 (Battery Temperature DC charge voltage is (BTS) is installed, the DC voltage will Sensor Operation) for more information. higher or lower than increase or decrease depending on the expected. temperature around the BTS. © 2015 Sensata Technologies Page 52... -
Page 61: Resetting The Inverter
Info: If DC disconnects are not used, there may be a momentary spark when the positive battery cable is connected to the inverter’s terminal. This is normal and indicates that the inverter’s internal capacitors are being charged. Page 53 © 2015 Sensata Technologies... -
Page 62: Appendix A - Specifi Cations And Optional Equipment
63 lb (28.6 kg) Max operating altitude 15,000’ (4570 m) ETL listed to UL/cUL 458, CSA C22.2 No. 107.1-01, and meet KKK-A-1822E standard. ** MS2000-G models Specifi cations @ 25°C - Subject to change without notice. © 2015 Sensata Technologies Page 54... -
Page 63: Figure A-1, Ms-G Series Effi Ciency Chart
AC input voltage and the inverter battery voltage. Note: The output charger current shown is with the inverter battery voltage at nominal (i.e., 25.2 volts for MS4024-G). MS2000-G/MS2012-G MS2812-G MS4024-G VAC Input Figure A-2, MS-G Series VAC Input to Charge Amps Page 55 © 2015 Sensata Technologies... - Page 64 Appendix A – Specifi cations A-4 Optional Equipment and Accessories The following Sensata components are available for use with the MS-G Series inverter/charger. Some of these items are required depending upon the intended use of the inverter. MMP Series Enclosures The MMP enclosures have been specifi...
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Page 65: Appendix B - Battery Information
AC utility or generator power. Info: For the MS-G Series inverter/charger to perform optimally, a minimum battery bank of 200 AH is recommended for moderate loads (<1000W) and greater than 400 AH for heavy loads (≥1000W). Page 57 © 2015 Sensata Technologies... - Page 66 AC source for the calculated load, the Total Amp-Hours should be multiplied by 1.2 to factor in an average 80% inverter effi ciency. © 2015 Sensata Technologies Page 58...
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Page 67: Figure B-1, Series Battery Wiring
+ 200 AH @ 6 VDC 6 VDC 6 VDC = 200 AH @ 12 VDC (200 AH) (200 AH) add voltage add capacity voltage and in series in parallel capacity together Figure B-3, Series-Parallel Battery Wiring Page 59 © 2015 Sensata Technologies... -
Page 68: Figure B-4, Battery Bank Wiring Examples (12-Volt)
(6 VDC + 6 VDC) (200 AH) (200 AH) 12-volt battery bank (2 strings of two 6-volt batteries wired in series and connected in parallel) Figure B-4, Battery Bank Wiring Examples (12-volt) © 2015 Sensata Technologies Page 60... -
Page 69: Figure B-5, Battery Bank Wiring Examples (24-Volt)
(200 AH) (200 AH) (200 AH) (200 AH) 24-volt battery bank (two strings of four 6-volt batteries wired in series and connected in parallel) Figure B-5, Battery Bank Wiring Examples (24-volt) Page 61 © 2015 Sensata Technologies... -
Page 70: Appendix C - Power Consumption & Output Waveforms
AC equipment will operate from a sine wave output inverter. • Square Wave – The simplest AC TIME waveform. Some types of equipment behave strangely when powered from a Figure C-1, AC Waveforms square wave inverter. © 2015 Sensata Technologies Page 62... -
Page 71: Appendix D - Inverter/Charger Terminology
Appendix D – Inverter/Charger Terminology Appendix D – Inverter/Charger Terminology The following is a glossary of terms with which you may not be familiar. They appear in the various descriptions of inverter and battery charger operation. Absorbtion Stage – In this second stage of three stage charging, the batteries are held at a constant voltage (the absorb voltage setting) and the battery is charged to its maximum capacity. - Page 72 Battery Temperature Sensor (BTS) automatically re-scales charge-voltage settings to compensate for ambient temperatures. Voltage – The pressure that causes electrical fl ow in a circuit. Watts – Measure of power output or utilization. Watts =Volts x Amps. © 2015 Sensata Technologies Page 64...
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Page 73: Appendix E - Warranty & Service
5. The original purchaser shall return the product prepaid to Sensata in Everett, WA, or to one of Sensata’s Authorized Service Centers (ASC). After the completion of service under this limited warranty, the product will be returned prepaid to the original purchaser via a non-expedited surface freight within the contiguous United States and Canada;... - Page 74 Magnum-Dimensions Products Manufactured by: Sensata Technologies 2211 West Casino Rd. Everett, WA 98204 Phone: 425-353-8833 Fax: 425-353-8390 Web: www.Magnum-Dimensions.com MS-G Series Owner’s Manual (PN: 64-0070 Rev A)