V P N. Voltage transducer DVM 4200 = 4200 V

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1 Voltage transducer DVM 42 N = 42 V For the electronic measurement of voltage: DC, AC, pulsed..., with galvanic separation between the primary and the secondary circuit. Features Bipolar and insulated measurement up to 6 V Current output Input and output connections with M5 studs Compatible with LV 1 family. Advantages Low consumption and low losses Compact design Very low sensitivity to common mode voltage variations Excellent accuracy (offset, sensitivity, linearity) Fast response time Low temperature drift High immunity to external interferences. Applications Single or three phase inverters Propulsion and braking choppers Propulsion converters Auxiliary converters High power drives Substations. Standards EN 5155: 27 EN : 215 EN : 21 IEC 611-1: 21 IEC 618-1: 1997 IEC 618-2: 215 IEC 618-3: 24 IEC : 27 IEC : 21 UL 347 1) : 216 1) When used with UL 347 Isolator N Application Domain Traction (fixed and onboard) Industrial N 97.N2.A3.. Page 1/9

2 DVM 42 Absolute maximum ratings Parameter Symbol Unit Value Maximum supply voltage ( = V,.1 s) ±U C max V ±34.6 Maximum supply voltage (working) ( 4 85 C) ±U C max V ±26.4 Maximum primary voltage ( 4 85 C) max V 6 Maximum steady state primary voltage ( 4 85 C) N max V 42 Absolute maximum ratings apply at 25 C unless otherwise noted. Stresses above these ratings may cause permanent damage. Exposure to absolute maximum ratings for extended periods may degrade reliability. UL 347: Ratings and assumptions of certification File # E Volume: 1 Section: 3 Standards CSA C22.2 No. 253 Medium-Voltage AC Contactors, Controllers, and Control Centers UL 347 Standards for Safety for Medium-Voltage AC Contactors, Controllers, and Control Centers. Conditions of acceptability When installed in the end-use equipment, consideration shall be given to the following: 1 - These devices must be mounted in a suitable end-use enclosure. 2 - The terminals have not been evaluated for field wiring. 3 - The rated Basic Insulation Level (BIL) is 2 kv for this device, after performing Impulse Withstand Tests. Additional testing will be required if a higher BIL rating is desired. 4 - For products rated more than 25 V, the specific kit model UL 347 isolator shall be mounted to the DVM. 5 - The products have been evaluated for a maximum surrounding air temperature of 85 C Low voltage circuits are intended to be powered by a circuit derived from an isolating source (such as a transformer, optical isolator, limiting impedance or electro-mechanical relay) and having no direct connection back to the primary circuit (other than through the grounding means). Marking Only those products bearing the UL or UR Mark should be considered to be Listed or Recognized and covered under UL s Follow- Up Service. Always look for the Mark on the product. Assembly of UL 347 Isolator on primary studs. UL 347 Isolator, reference number , to be ordered separately. Page 2/9

3 DVM 42 Insulation coordination Parameter Symbol Unit Value Comment RMS voltage for AC insulation test, 5 Hz, 1 min U d kv 12 1 % tested in production Impulse withstand voltage 1.2/5 µs Û W kv 3 Partial discharge extinction RMS 1 pc U e V 5 Insulation resistance R INS MΩ 2 measured at 5 V DC Clearance (pri. - sec.) d CI mm Creepage distance (pri. - sec.) d Cp mm See dimensions drawing on page 9 Shortest distance through air Shortest path along device body Case material - - V According to UL 94 Comparative tracking index CTI 6 Maximum DC common mode voltage V HV+ + V HV - and V HV+ V HV- kv 6.3 M Environmental and mechanical characteristics Parameter Symbol Unit Min Typ Max Ambient operating temperature T A C 4 85 Ambient storage temperature T S C 5 9 Mass m g 375 Page 3/9

4 DVM 42 Electrical data At T A = 25 C, ±U C = ±24 V, R M = 1 Ω, unless otherwise noted. Lines with a * in the conditions column apply over the 4 85 C ambient temperature range. Parameter Symbol Unit Min Typ Max Conditions Primary nominal RMS voltage N V 42 * Primary voltage, measuring range M V 6 6 * Measuring resistance R M Ω * see derating on figure 1 Secondary nominal RMS current N ma 5 * Secondary current ma * Supply voltage ±U C V ±1.8 ±26.4 * Rise time of U C (1-9 %) t rise ms 1 Current U C = ± 24 V at = V I C ma 3 Offset current I O μa % tested in production Temperature variation of I O I O T µa * C C Sensitivity G µa/v ma for primary 42 V Sensitivity error ε G %.3.3 Thermal drift of sensitivity ε G T %.5.5 * Linearity error ε L % of M.5.5 * ±6 V range Overall accuracy X % of V production G P N * 25 C; 1 % tested in C Output RMS noise current I no μa 3 1 Hz to 1 khz Reaction 1 % of N t ra μs 3 Response 9 % of N t r μs 5 6 to 42 V step, 6 kv/µs Frequency bandwidth BW khz 13 8 Start-up time t start ms * Resistance of primary (winding) R P MΩ 25.1 * Total primary power N P P W.7 * 3 db 1 db Definition of typical, minimum and maximum values Minimum and maximum values for specified limiting and safety conditions have to be understood as such as well as values shown in typical graphs. On the other hand, measured values are part of a statistical distribution that can be specified by an interval with upper and lower limits and a probability for measured values to lie within this interval. Unless otherwise stated (e.g. 1 % tested ), the LEM definition for such intervals designated with min and max is that the probability for values of samples to lie in this interval is %. For a normal (Gaussian) distribution, this corresponds to an interval between 3 sigma and +3 sigma. If typical values are not obviously mean or average values, those values are defined to delimit intervals with a probability of %, corresponding to an interval between sigma and +sigma for a normal distribution. Typical, maximal and minimal values are determined during the initial characterization of a product. Page 4/9

5 DVM 42 Typical performance characteristics Maximum measuring resistance (Ohm) T A = C Uc = ±13.4 to ±21.6 V Uc = ±1.8 V Electrical offset drift (µa) 15 5 Max Typical Min Measuring range (V) Ambient temperature ( C) Figure 1: Maximum measuring resistance Overall accuracy (%) R M max = min ( 84 (U 1.4) C ; 25) Ω Max Typical Min Ambient temperature ( C) Figure 3: Overall accuracy in temperature Figure 2: Electrical offset thermal drift.8 Sensitivity drift (%) Max Typical Min Ambient temperature ( C) Figure 4: Sensitivity thermal drift: Input : 21 V/div Output : 5 µa/div Timebase: 2 µs/div Input : 7 V/div Output : 8.3 ma/div Timebase: 1 µs/div Figure 5: Typical step response ( to 42 V) Figure 6: Detail of typical common mode perturbation (42 V step with 6 kv/µs, R M = 1 Ω) Page 5/9

6 DVM 42 Typical performance characteristics Typical supply current (ma) T A = 25 C, = V Typical supply current (ma) UC = +/- 24V UC = +/- 15V Supply voltage ( V) Ambient temperature ( C) Figure 7: Supply current function of supply voltage Figure 8: Supply current function of temperature Gain (db) Phase (deg) Figure 3: Overall accuracy in temperature Figure 4: Sensitivity thermal drift: Gain (db) Phase(deg) Figure 5: Typical step response ( to 42 V) Figure 6: Detail of typical common mode perturbation (42 V step with 6 kv/µs, R M = 1 Ω) Page 6/9

7 Typical performance characteristics continued DVM 42 e no (dbvrms/hz 1/2 ) ,1, I no (A RMS) 1E-4 1E-5 1E-6 1E-7 1E-8,1, Figure11: Typical noise voltage density e no with R M = 5 Ω Figure 12: Typical total output RMS noise current with R M = 5 Ω Linearity error (% of N ),8,6,4,2, -,2 -,4 -,6 -, Primary voltage (V) Figure 11 (noise voltage spectral density) shows that there are no significant discrete frequencies in the output. Figure 12 confirms the absence of steps in the total output RMS noise current that would indicate discrete frequencies. To calculate the noise in a frequency band f1 to f2, the formula is: I I no (f2) 2 I no (f1) 2 no (f1 to f2) = with I no (f) read from figure 12 (typical, RMS value). Example: What is the noise from 1 to 1 khz? Figure 12 gives I no 1 Hz) = 1. µa and I no (1 khz) = 3.13 µa. The output RMS noise current is therefore. ( ) 2 ( ) 2 = 2.97 µa Figure 13: Typical linearity error at 25 C Page 7/9

8 DVM 42 The schematic used to measure all electrical parameters are: Performance parameters definition Sensitivity and linearity Figure 14: standard characterization schematics for current output transducers (R M = 5 Ω unless otherwise noted) Transducer simplified model The static model of the transducer at temperature T A is: = G + ε In which ε = I O E + I O T (T A ) + ε G G + ε G T (T A ) G + ε L G M : secondary current (A) G : sensitivity of the transducer (μa/v) : primary voltage (V) M : primary voltage, measuring range (V) T A : ambient operating temperature ( C) I O E : electrical offset current (A) I O T (T A ) : temperature variation of I O at temperature T A (A) ε G : sensitivity error at 25 C ε G T (T A ) : thermal drift of sensitivity at temperature T A : linearity error ε L +HV -HV Isolation barrier + - M R M +U C V U C To measure sensitivity and linearity, the primary voltage (DC) is cycled from to M, then to M and back to (equally spaced M /1 steps). The sensitivity G is defined as the slope of the linear regression line for a cycle between ± M. The linearity error ε L is the maximum positive or negative difference between the measured points and the linear regression line, expressed in % of the maximum measured value. Electrical offset The electrical offset current I O E is the residual output current when the input voltage is zero. The temperature variation I O T of the electrical offset current I O E is the variation of the electrical offset from 25 C to the considered temperature. Overall accuracy The overall accuracy X G is the error at ± N, relative to the rated value N. It includes all errors mentioned above. Response and reaction times The response time t r and the reaction time t ra are shown in the next figure. Both depend on the primary voltage dv/dt. They are measured at nominal voltage. 1 % 9 % This is the absolute maximum error. As all errors are independent, a more realistic way to calculate the error would be to use the following formula: ε = N ii =1 2 ε ii 1 % t r t ra Figure 15: response time t r and reaction time t ra t Page 8/9

9 DVM 42 Dimensions (in mm) Connection +U C R M -U C d CI d Cp Mechanical characteristics General tolerance Transducer fastening Recommended fastening torque Connection of primary Recommended fastening torque Connection of secondary Recommended fastening torque Remarks ±1 mm 2 holes 6.5 mm 2 M6 steel screws 5 N m 2 M5 threaded studs 2.2 N m 3 M5 threaded studs 2.2 N m Safety This transducer must be used in limited-energy secondary circuits according to IEC This transducer must be used in electric/electronic equipment with respect to applicable standards and safety requirements in accordance with the manufacturer s operating instructions. is positive when a positive voltage is applied on +HV. The transducer is directly connected to the primary voltage. The primary cables have to be routed together all the way. The secondary cables also have to be routed together all the way. Installation of the transducer is to be done without primary or secondary voltage present Installation of the transducer must be done unless otherwise specified on the datasheet, according to LEM Transducer Generic Mounting Rules. Please refer to LEM document N ANE1254 available on our Web site: Products/Product Documentation. Caution, risk of electrical shock When operating the transducer, certain parts of the module can carry hazardous voltage (e.g. primary connections, power supply). Ignoring this warning can lead to injury and/ or cause serious damage. This transducer is a build-in device, whose conducting parts must be inaccessible after installation. A protective housing or additional shield could be used. Main supply must be able to be disconnected. Page 9/9

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