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Supply , Installation , Testing And Commissioning Of Lab Equipment For The Department Of Electrical Engineering, GKCIET, P.O. Narayanpur, Dist. Malda, West Bengal,-West Bengal

Institute Of Engineering And Technology-IET has published Supply , Installation , Testing And Commissioning Of Lab Equipment For The Department Of Electrical Engineering. Submission Date for this Tender is 11-01-2020. Thyristors Tenders in GKCIET, P.O. Narayanpur, Dist. Malda, West Bengal, West Bengal. Bidders can get complete Tender details and download the document.




Tender Notice

22995515
Supply , Installation , Testing And Commissioning Of Lab Equipment For The Department Of Electrical Engineering
Open Tender
Indian
West Bengal
GKCIET, P.O. Narayanpur, Dist. Malda, West Bengal,
11-01-2020

Tender Details

Supply , Installation , Testing And Commissioning Of Lab Equipment For The Department Of Electrical Engineering -1 Calibration Of Ammeter And Wattmeter 2 Calibration Of Ammeter And Wattmeter 3 Demonstration Of Three Phase Transformer Connections. Voltage And Current Relationship, Phase Shifts Between The Primary And Secondary Side 4 3 Single Ph Transformer For Vector Group Testing Dy1, Dy11, Yy0, Dz0, Dz6 Connection 5 Demonstration Of Components Of Lt Switch 6 1-10Kw Lt Switchgear Panel Mounted Setup For Handson Practice Of Switchgear Connection 7 Frequency Meter, Ph Sequency Meter , Power Factor Meter 8 Frequency Meter, Ph Sequency Meter , Power Factor Meter 9 Measurement Of Capacitance By Schering Bridge 10 Measurement Of Capacitance By Schering Bridge 11 Measurement Of Speed Of Dc Series Motor As A Function Of Load Torque 12 Dc Series Motor Drum Controler Setup With Loading Arrangment 13 V / F Control Of3 Ph Induction Motor 14 V / F Control Of3 Ph Induction Motor 15 Parallel Operation Of Two Three Ph Transformers 16 Parallel Operation Of Two Three Ph Transformers 17 Determination Of Xd, Xq Of A Salient Pole 3 Ph Synchronous Machine 18 Determination Of Xd, Xq Of A Salient Pole 3 Ph Synchronous Machine 19 Parallel Operation Of Two Three Ph Alternator 20 Parallel Operation Of Two Three Ph Alternator 21 Different Parameter Calculation By Power Cycle Diagram 22 Different Parameter Calculation By Power Cycle Diagram 23 Study Of Different Type Of Cable 24 A Demonestration Board With Single Core, 3 Core Stranded, Nonstranded Acsr, Al, Cu, Conducters Used For Transmission And Distribussion 25 Study Of The Characteristics Of On- Delay Relay And Off-Delay Relay 26 Study Of The Characteristics Of On- Delay Relay And Off-Delay Relay 27 Test To Find Out Characteristics Of ( A ) Under Voltage Relay ( B ) Earth Fault Relay 28 Test To Find Out Characteristics Of ( A ) Under Voltage Relay ( B ) Earth Fault Relay 29 Study Of The Characteristics Of An Scr 30 Scr Trainer Kit 31 Study Of The Characteristics Of A Triac 32 Triac Trainer Kit 33 Study Of Different Triggering Circuits Of An Scr 34 Complete Setup For Scr Triggering Circuit Trainer Kit ( To Perform I ) Forward Voltage Triggering. Ii ) Gate Triggering Iii ) Dv / Dt Triggering Iv ) Temperature Triggering V ) Light Triggering ) 35 Study Of Firing Circuits Suitable For Triggering Scr In A Single Phase Full Controlled Bridge 36 Complete Setup For Scr Triggering Circuit In A Single Phase Full Control Bridge Trainer Kit 37 Study Of The Operation Of A Single Phase Full Controlled Bridge Converter With R And R-L Load. 38 Complete Setup For Scr Triggering Circuit In A Single Phase Full Control Bridge With R And R L Load Trainer Kit 39 Study Of Performance Of Single Phase Half Controlled Symmetrical And Asymmetrical Bridge Converters 40 Complete Setup For Study Of Performance Of Single Phase Half Controlled Symmetrical And Asymmetrical Bridge Converters-Trainer Kit 41 Single Ph Universal Motor Control Using Diac, Triac 42 Single Ph Universal Motor Control Using Diac, Triac 43 Study Of Performance Of Step Down Chopper With R And R-L Load, Motor Speed Control 44 Complete Setup For Study Of Performance Of Step Down Chopper With R And R-L Load 45 Tuning Of P, Pi And Pid Controller For First Order Plant With Dead Time Using Z-N Method. Process Parameters ( Time Constant And Delay / Lag ) Will Be Provided. The Gain Of The Controller To Be Computed By Using Z-N Method. Steady State And Transient Performance Of The Closed Loop Plant To Be Noted With And Without Steady Disturbances. The Theoretical Phase Margin And Gain Margin To Be Calculated Manually For Each Gain Setting 46 Tuning Of P, Pi And Pid Controller For First Order Plant With Dead Time Using Z-N Method. Process Parameters ( Time Constant And Delay / Lag ) Will Be Provided. The Gain Of The Controller To Be Computed By Using Z-N Method. Steady State And Transient Performance Of The Closed Loop Plant To Be Noted With And Without Steady Disturbances. The Theoretical Phase Margin And Gain Margin To Be Calculated Manually For Each Gain Setting 47 To Plot The Characteristics Of Ujt 48 To Plot The Characteristics Of Ujt 49 To Measure Low Resistance By Kelvin’S Double Bridge 50 To Measure Low Resistance By Kelvin’S Double Bridge 51 To Measure Power Factor Of Single Phase And Three Phase Load By Pf Meter And Verify The Same Through I, V And P Measurement 52 To Measure Power Factor Of Single Phase And Three Phase Load By Pf Meter And Verify The Same Through I, V And P Measurement 53 To Measure Current & Voltages By Low Range Ammeter & Voltmeter Respectively Using Ct And Pt 54 To Measure Current & Voltages By Low Range Ammeter & Voltmeter Respectively Using Ct And Pt 55 To Mount And Wire Up The Main Board By Batten / Conduit Wiring And Connect Energy Meter, Mcb, Elcb, Rccb Etc. As Per Ie Rule 56 To Mount And Wire Up The Main Board By Batten / Conduit Wiring And Connect Energy Meter, Mcb, Elcb, Rccb Etc. As Per Ie Rule 57 To Test A Battery For Its Charged And Discharged Condition And To Make Connections For Charging And Obtain Its Capacity 58 To Test A Battery For Its Charged And Discharged Condition And To Make Connections For Charging And Obtain Its Capacity 59 To Start A 3-Phase Slip-Ring Induction Motor By Rotor Resistance Starter And Determine The Effect Of The Rotor Resistance On The Torque-Speed Curves Of An Induction Motor 60 To Start A 3-Phase Slip-Ring Induction Motor By Rotor Resistance Starter And Determine The Effect Of The Rotor Resistance On The Torque-Speed Curves Of An Induction Motor 61 To Measure Temperature By Pt-100, Thermistor And Thermocouple Along With Simple Resistance Bridge 62 To Measure Temperature By Pt-100, Thermistor And Thermocouple Along With Simple Resistance Bridge 63 To Plot Characteristics Of Potentiometer And Observe The Loading Effect On Output Of Potentiometer 64 To Plot Characteristics Of Potentiometer And Observe The Loading Effect On Output Of Potentiometer 65 To Study The Principle Of Operation And Connection Of Pilot Devices Like – Push Button Switch, Limit Switch, Selector Switch, Pressure Switch, Float Switch 66 To Study The Principle Of Operation And Connection Of Pilot Devices Like – Push Button Switch, Limit Switch, Selector Switch, Pressure Switch, Float Switch 67 To Study Open Loop Control Of Any Physical Control System And Study Of Closed Loop Control Of The Same System Using P, Pi And Pid Controller 68 To Study Open Loop Control Of Any Physical Control System And Study Of Closed Loop Control Of The Same System Using P, Pi And Pid Controller 69 To Study The Position Control System Using Servomotor 70 To Study The Position Control System Using Servomotor 71 To Demonstrate Various System Faults By D.C. Network Analyzer 72 To Demonstrate Various System Faults By D.C. Network Analyzer 73 To Study Active And Reactive Power Flow Through Transmission Lines 74 To Study Active And Reactive Power Flow Through Transmission Lines 75 To Measure Solar Radiation With The Help Of Pyranometer 76 To Measure Solar Radiation With The Help Of Pyranometer 77 To Study Different Kinds Of Insulators ( Insulators Are Required To Be Available In Laboratory 78 Demonstration Board Displaying Available Types Of Insulators ( A, E, B, F, H, C Class 79 To Study Pilc, Pvc, Frls And Xlpe Cables. ( Cables Are Required To Be Available In Laboratory ) 80 To Study Pilc, Pvc, Frls And Xlpe Cables. ( Cables Are Required To Be Available In Laboratory ) 81 To Demonstrate The Photo Voltaic System Used In Street Lighting – Pv Module, Ccu, Battery, Cfl 82 To Demonstrate The Photo Voltaic System Used In Street Lighting – Pv Module, Ccu, Battery, Cfl 83 To Identify The Terminals Of Thyristor And Plot V-I Characteristics Of Thyristor 84 To Identify The Terminals Of Thyristor And Plot V-I Characteristics Of Thyristor 85 To Study Fully Controlled Full Wave Rectifier Using Scr 86 Kit Type Fully Controlled Bridge Rectifier Using Scr 87 To Study Dc Chopper Circuit Using Scr 88 To Study Dc Chopper Circuit Using Scr 89 To Study Series Inverter Using Scr 90 Series Inverter Using Scr Kit 91 To Perform Speed Control Of Dc Series Motor Using Scr 92 To Perform Speed Control Of Dc Series Motor Using Scr 93 To Perform Speed Control Of 3-Phase Induction Motor Using Pwm Inverter. Interpret Speed-Torque Characteristics. Use Variable Voltage Variable Frequency Drive 94 To Perform Speed Control Of 3-Phase Induction Motor Using Pwm Inverter. Interpret Speed-Torque Characteristics. Use Variable Voltage Variable Frequency Drive 95 To Study The Operation And Circuit Diagram Of Uninterrupted Power Supply Unit 96 To Study The Operation And Circuit Diagram Of Uninterrupted Power Supply Unit 97 Operation Of A Stepper Motor With A Fixed Number Of Steps And To Determine The Angular Displacement Per Step By Measuring The Total Angular Rotation 98 Operation Of A Stepper Motor With A Fixed Number Of Steps And To Determine The Angular Displacement Per Step By Measuring The Total Angular Rotation 99 To Determine Illumination Of A Surface For A Drawing Room By Means Of Lux Meter 100 To Determine Illumination Of A Surface For A Drawing Room By Means Of Lux Meter 101 To Determine Candle Power Of A Lamp In Comparison To Standard C.P. Of Lamp By Optical Bench Method. 102 To Determine Candle Power Of A Lamp In Comparison To Standard C.P. Of Lamp By Optical Bench Method. 103 To Study Of The Principle Of Induction Heating Using An Induction Heater 104 Induction Heating Study Kit 105 To Make & Test The Control Circuit For Dynamic Braking Operation Of Induction Motor Using Contactor Control 106 To Make & Test The Control Circuit For Dynamic Braking Operation Of Induction Motor Using Contactor Control 107 To Make & Test The Working Of Single Phase Preventer Using Contactor Control 108 To Make & Test The Working Of Single Phase Preventer Using Contactor Contro 109 To Make & Test The Control Circuit Operation Of Automatic Star-Delta Starter Of Induction Motor Using Plc 110 Plc Unit ( Seimens ) To Demonstrate Star Delta Starter Operation 111 Digital Storage Oscilloscope 112 Digital Storage Oscilloscope 113 Multimeters 114 Multimeters 115 Universal Programmer 116 Universal Programmer 117 Pic Microcontrollers 118 Pic Microcontrollers 119 Arduino Microcontrollers 120 Arduino Microcontrollers 121 Relays 122 Relays 123 Solar Panels 124 Solar Panels 125 Dc Motors 126 Dc Motors 127 Demonestration Kit Of Network Therem For Thevenins, Nortons, Maximum Power Transfer Ans Super Position Theorem 128 Demonestration Kit Of Network Therem For Thevenins, Nortons, Maximum Power Transfer Ans Super Position Theorem 129 To Measure Active And Reactive Power In Three Phase Balanced Load By Two Wattmeter Method And Observe The Effect Of Power Factor Variation On Wattmeter Reading 130 To Measure Active And Reactive Power In Three Phase Balanced Load By Two Wattmeter Method And Observe The Effect Of Power Factor Variation On Wattmeter Reading 131 To Measure An Inductance By Maxwell’S Bridge 132 To Measure An Inductance By Maxwell’S Bridge

Key Value

Document Fees
INR 1000 /-
EMD
INR 50000.0 /-
Tender Value
INR 25 Lakhs /-

BOQ Items

Name of Work: Supply, Installation, Testing and Commissioning of Lab equipment for the Department of Electrical Engineering
Sl. No. Item Description Item Code / Make Quantity Units
1 1 Calibration of ammeter and Wattmeter
2 1.01 Calibration of ammeter and Wattmeter item1.01 1 Nos
3 2 Demonstration of three phase transformer connections. Voltage and current relationship, phase shifts between the primary and secondary side
4 2.01 3 single ph transformer for Vector group testing Dy1,Dy11,YY0,Dz0,Dz6 connection item2.01 1 Nos
5 3 Demonstration of components of LT switch
6 3.01 1-10KW LT switchgear Panel mounted setup for handson practice of switchgear connection item3.01 1 Nos
7 4 Frequency meter,Ph Sequency meter ,power factor meter
8 4.01 Frequency meter,Ph Sequency meter ,power factor meter item4.01 1 Nos
9 5 Measurement of capacitance by Schering Bridge
10 5.01 Measurement of capacitance by Schering Bridge item5.01 1 Nos
11 6 Measurement of speed of DC series motor as a function of load torque
12 6.01 DC series motor drum controler setup with loading arrangment item6.01 1 Nos
13 7 V/F control of3 ph induction motor
14 7.01 V/F control of3 ph induction motor item7.01 1 Nos
15 8 parallel operation of two three ph Transformers
16 8.01 parallel operation of two three ph Transformers item8.01 1 Nos
17 9 determination of Xd,Xq of a salient pole 3 ph synchronous machine
18 9.01 determination of Xd,Xq of a salient pole 3 ph synchronous machine item9.01 1 Nos
19 10 Parallel operation of two three ph Alternator
20 10.01 Parallel operation of two three ph Alternator item10.01 1 Nos
21 11 Different parameter calculation by power cycle diagram
22 11.01 Different parameter calculation by power cycle diagram item11.01 1 Nos
23 12 study of different type of cable
24 12.01 a demonestration board with single core, 3 core stranded, nonstranded ACSR,Al,Cu, Conducters used for transmission and distribussion item12.01 1 Nos
25 13 Study of the characteristics of on- delay relay and off-delay relay
26 13.01 Study of the characteristics of on- delay relay and off-delay relay item13.01 1 Nos
27 14 Test to find out characteristics of (a) under voltage relay (b) earth fault relay
28 14.01 Test to find out characteristics of (a) under voltage relay (b) earth fault relay item14.01 1 Nos
29 15 Study of the characteristics of an SCR
30 15.01 SCR Trainer kit item15.01 1 Nos
31 16 Study of the characteristics of a TRIAC
32 16.01 TRIAC Trainer kit item16.01 1 Nos
33 17 Study of different triggering circuits of an SCR
34 17.01 Complete setup for SCR Triggering circuit Trainer kit (to perform i) Forward voltage triggering. ii) gate triggering iii) dv/dt triggering iv) temperature triggering v) light triggering) item17.01 1 Nos
35 18 Study of firing circuits suitable for triggering SCR in a single phase full controlled bridge
36 18.01 Complete setup for SCR Triggering circuit in a single phase full control bridge Trainer kit item18.01 1 Nos
37 19 Study of the operation of a single phase full controlled bridge converter with R and R-L load.
38 19.01 Complete setup for SCR Triggering circuit in a single phase full control bridge with R and R L load Trainer kit item19.01 1 Nos
39 20 Study of performance of single phase half controlled symmetrical and asymmetrical bridge converters
40 20.01 Complete setup for Study of performance of single phase half controlled symmetrical and asymmetrical bridge converters-Trainer kit item20.01 1 Nos
41 21 single ph Universal motor control using DIAC, TRIAC
42 21.01 single ph Universal motor control using DIAC, TRIAC item21.01 1 Nos
43 22 Study of performance of step down chopper with R and R-L load,motor speed control
44 22.01 Complete setup for Study of performance of step down chopper with R and R-L load item22.01 1 Nos
45 23 Tuning of P, PI and PID controller for first order plant with dead time using Z-N method. Process parameters (time constant and delay/lag) will be provided. The gain of the controller to be computed by using Z-N method. Steady state and transient performance of the closed loop plant to be noted with and without steady disturbances. The theoretical phase margin and gain margin to be calculated manually for each gain setting
46 23.01 Tuning of P, PI and PID controller for first order plant with dead time using Z-N method. Process parameters (time constant and delay/lag) will be provided. The gain of the controller to be computed by using Z-N method. Steady state and transient performance of the closed loop plant to be noted with and without steady disturbances. The theoretical phase margin and gain margin to be calculated manually for each gain setting item23.01 1 Nos
47 24 To plot the characteristics of UJT
48 24.01 To plot the characteristics of UJT item24.01 1 Nos
49 25 To measure Low resistance by Kelvin’s Double Bridge
50 25.01 To measure Low resistance by Kelvin’s Double Bridge item25.01 1 Nos
51 26 To measure power factor of single phase and three phase load by PF meter and verify the same through I, V and P measurement
52 26.01 To measure power factor of single phase and three phase load by PF meter and verify the same through I, V and P measurement item26.01 1 Nos
53 27 To measure current & voltages by low range ammeter & voltmeter respectively using CT and PT
54 27.01 To measure current & voltages by low range ammeter & voltmeter respectively using CT and PT item27.01 1 Nos
55 28 To Mount and wire up the main board by batten/conduit wiring and connect Energy Meter, MCB, ELCB, RCCB etc. as per IE rule
56 28.01 To Mount and wire up the main board by batten/conduit wiring and connect Energy Meter, MCB, ELCB, RCCB etc. as per IE rule item28.01 1 Nos
57 29 To test a battery for its charged and discharged condition and to make connections for charging and obtain its capacity
58 29.01 To test a battery for its charged and discharged condition and to make connections for charging and obtain its capacity item29.01 1 Nos
59 30 To start a 3-phase Slip-ring induction motor by rotor resistance starter and determine the effect of the rotor resistance on the torque-speed curves of an induction motor
60 30.01 To start a 3-phase Slip-ring induction motor by rotor resistance starter and determine the effect of the rotor resistance on the torque-speed curves of an induction motor item30.01 1 Nos
61 31 To measure temperature by pt-100, thermistor and thermocouple along with simple resistance bridge
62 31.01 To measure temperature by pt-100, thermistor and thermocouple along with simple resistance bridge item31.01 1 Nos
63 32 To plot characteristics of potentiometer and observe the loading effect on output of potentiometer
64 32.01 To plot characteristics of potentiometer and observe the loading effect on output of potentiometer item32.01 1 Nos
65 33 To study the principle of operation and connection of pilot devices like – Push Button Switch, Limit Switch, Selector switch, Pressure switch, Float switch
66 33.01 To study the principle of operation and connection of pilot devices like – Push Button Switch, Limit Switch, Selector switch, Pressure switch, Float switch item33.01 1 Nos
67 34 To study open loop control of any physical control system and study of closed loop control of the same system using P, PI and PID controller
68 34.01 To study open loop control of any physical control system and study of closed loop control of the same system using P, PI and PID controller item34.01 1 Nos
69 35 To study the position control system using servomotor
70 35.01 To study the position control system using servomotor item35.01 1 Nos
71 36 To demonstrate various system faults by D.C. network analyzer
72 36.01 To demonstrate various system faults by D.C. network analyzer item36.01 1 Nos
73 37 To study active and reactive power flow through transmission lines
74 37.01 To study active and reactive power flow through transmission lines item37.01 1 Nos
75 38 To measure Solar Radiation with the help of Pyranometer
76 38.01 To measure Solar Radiation with the help of Pyranometer item38.01 1 Nos
77 39 To study different kinds of insulators (Insulators are required to be available in laboratory
78 39.01 Demonstration board displaying available types of insulators (A,E,B,F,H,C class item39.01 1 Nos
79 40 To study PILC, PVC, FRLS and XLPE cables. (Cables are required to be available in laboratory)
80 40.01 To study PILC, PVC, FRLS and XLPE cables. (Cables are required to be available in laboratory) item40.01 1 Nos
81 41 To demonstrate the photo voltaic system used in street lighting – PV module, CCU, Battery, CFL
82 41.01 To demonstrate the photo voltaic system used in street lighting – PV module, CCU, Battery, CFL item41.01 1 Nos
83 42 To identify the terminals of Thyristor and plot V-I characteristics of Thyristor
84 42.01 To identify the terminals of Thyristor and plot V-I characteristics of Thyristor item42.01 1 Nos
85 43 To study fully controlled full wave rectifier using SCR
86 43.01 Kit Type Fully controlled Bridge rectifier using SCR item43.01 1 Nos
87 44 To study DC chopper circuit using SCR
88 44.01 To study DC chopper circuit using SCR item44.01 1 Nos
89 45 To study series inverter using SCR
90 45.01 Series Inverter using SCR Kit item45.01 1 Nos
91 46 To perform speed control of DC series motor using SCR
92 46.01 To perform speed control of DC series motor using SCR item46.01 1 Nos
93 47 To perform speed control of 3-phase Induction motor using PWM inverter. Interpret speed-torque characteristics. Use variable voltage variable frequency drive
94 47.01 To perform speed control of 3-phase Induction motor using PWM inverter. Interpret speed-torque characteristics. Use variable voltage variable frequency drive item47.01 1 Nos
95 48 To study the operation and circuit diagram of Uninterrupted Power Supply unit
96 48.01 To study the operation and circuit diagram of Uninterrupted Power Supply unit item48.01 1 Nos
97 49 Operation of a stepper motor with a fixed number of steps and to determine the angular displacement per step by measuring the total angular rotation
98 49.01 Operation of a stepper motor with a fixed number of steps and to determine the angular displacement per step by measuring the total angular rotation item49.01 1 Nos
99 50 To determine Illumination of a surface for a Drawing Room by means of lux meter
100 50.01 To determine Illumination of a surface for a Drawing Room by means of lux meter item50.01 1 Nos
101 51 To determine candle power of a lamp in comparison to standard C.P. of lamp by optical bench method.
102 51.01 To determine candle power of a lamp in comparison to standard C.P. of lamp by optical bench method. item51.01 1 Nos
103 52 To study of the principle of Induction Heating using an induction heater
104 52.01 Induction heating study kit item52.01 1 Nos
105 53 To make & test the control circuit for dynamic braking operation of induction motor using contactor control
106 53.01 To make & test the control circuit for dynamic braking operation of induction motor using contactor control item53.01 1 Nos
107 54 To make & test the working of single phase preventer using contactor control
108 54.01 To make & test the working of single phase preventer using contactor contro item54.01 1 Nos
109 55 To make & test the control circuit operation of automatic star-delta starter of induction motor using PLC
110 55.01 PLC unit (Seimens)to demonstrate star delta starter operation item55.01 1 Nos
111 56 Digital Storage Oscilloscope
112 56.01 Digital Storage Oscilloscope item56.01 1 Nos
113 57 Multimeters
114 57.01 Multimeters item57.01 10 Nos
115 58 Universal Programmer
116 58.01 Universal Programmer item58.01 1 Nos
117 59 Pic microcontrollers
118 59.01 Pic microcontrollers item59.01 10 Nos
119 60 Arduino microcontrollers
120 60.01 Arduino microcontrollers item60.01 10 Nos
121 61 Relays
122 61.01 Relays item61.01 50 Nos
123 62 Solar Panels
124 62.01 Solar Panels item62.01 10 Nos
125 63 DC Motors
126 63.01 DC Motors item63.01 50 Nos
127 64 Demonestration kit of network therem for Thevenin's, Norton's, Maximum power transfer ans Super position theorem
128 64.01 Demonestration kit of network therem for Thevenin's, Norton's, Maximum power transfer ans Super position theorem item64.01 1 Nos
129 65 To measure active and reactive power in three phase balanced load by two wattmeter method and observe the effect of Power Factor variation on Wattmeter reading
130 65.01 To measure active and reactive power in three phase balanced load by two wattmeter method and observe the effect of Power Factor variation on Wattmeter reading item65.01 1 Nos
131 66 To measure an inductance by Maxwell’s bridge
132 66.01 To measure an inductance by Maxwell’s bridge item66.01 1 Nos
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