| 1 |
Ohm’s Law
|
SE-601 |
| 2 |
Ohm’s Law with 2 Digital Meters
|
SE-601DM |
| 3 |
Kirchoff’s Current Law (KCL)
|
SE-602 |
| 4 |
Kirchoff’s Current Law (KCL) with Digital Meters
|
SE-602DM |
| 5 |
Kirchoff’s Voltage Law (KVL)
|
SE-603 |
| 6 |
Kirchoff’s Voltage Law (KVL) with Digital Meters
|
SE-603DM |
| 7 |
Kirchoff’s Laws (KCL & KVL)
|
SE-604 |
| 8 |
Kirchoff’s Laws (KCL & KVL) for AC Circuit with Digital Meters
|
SE-604ACDM |
| 9 |
Kirchoff’s Laws (KCL & KVL) with Digital Meters
|
SE-604DM |
| 10 |
Maxwell Loop Current method
|
SE-605 |
| 11 |
RC Series Resonance
|
SE-606 |
| 12 |
RC Series Circuit
|
SE-606A |
| 13 |
RC Parallel Resonance
|
SE-607 |
| 14 |
RC Series & Parallel Resonance
|
SE-608 |
| 15 |
RL Series Resonance
|
SE-609 |
| 16 |
RL Series Circuit
|
SE-609A |
| 17 |
RL Parallel Resonance
|
SE-610 |
| 18 |
RL Series & Parallel Resonance
|
SE-611 |
| 19 |
RLC Series Resonance
|
SE-612 |
| 20 |
RLC Series Circuit
|
SE-612A |
| 21 |
RLC Parallel Resonance
|
SE-613 |
| 22 |
RLC Parallel Circuit
|
SE-613A |
| 23 |
RLC Series & Parallel Resonance
|
SE-614 |
| 24 |
RC Lead Circuit
|
SE-615 |
| 25 |
RC Lag Circuit
|
SE-616 |
| 26 |
RC lead and Lag Circuit
|
SE-617 |
| 27 |
RC & LC Circuit
|
SE-618 |
| 28 |
Thevenin’s Theorem for DC Circuit
|
SE-619 |
| 29 |
Thevenin’s Theorem for AC Circuit
|
SE-619AC |
| 30 |
Thevenin’s Theorem for AC Circuit with Digital Meters
|
SE-619ACDM |
| 31 |
Thevenin’s Theorem for DC Circuit with Digital Meters
|
SE-619DM |
| 32 |
Norton’s Theorem for DC Circuit
|
SE-620 |
| 33 |
Norton’s Theorem for AC Circuit
|
SE-620AC |
| 34 |
Norton’s Theorem for AC Circuit with Digital Meters
|
SE-620ACDM |
| 35 |
Norton’s Theorem for DC Circuit with Digital Meters,
|
SE-620DM |
| 36 |
Millman’s Theorem for DC Circuit
|
SE-621 |
| 37 |
Millman’s Theorem for AC Circuit
|
SE-621AC |
| 38 |
Millman’s Theorem for AC Circuit with Digital Meters
|
SE-621ACDM |
| 39 |
Millman’s Theorem for DC Circuit with Digital Meters,
|
SE-621DM |
| 40 |
Superposition Theorem for DC Circuit, Model No.
|
SE-622 |
| 41 |
Superposition Theorem for AC Circuit
|
SE-622AC |
| 42 |
Superposition Theorem for AC Circuit with Digital Meters
|
SE-622ACDM |
| 43 |
Superposition Theorem for DC Circuit with Digital Meters,
|
SE-622DM |
| 44 |
Reciprocity Theorem for DC Circuit
|
SE-623 |
| 45 |
Reciprocity Theorem for AC Circuit,
|
SE-623AC |
| 46 |
Reciprocity Theorem for AC Circuit with Digital Meters
|
SE-623ACDM |
| 47 |
Reciprocity Theorem for DC Circuit with Digital Meters
|
SE-623DM |
| 48 |
Maximum Power Transfer Theorem for DC Circuit
|
SE-624 |
| 49 |
Maximum Power Transfer Theorem for AC Circuit,
|
SE-624AC |
| 50 |
Maximum Power Transfer Theorem for AC Circuit with Digital Meters
|
SE-624ACDM |
| 51 |
Maximum Power Transfer Theorem for DC Circuit with Digital Meters,
|
SE-624DM |
| 52 |
Tellegan's Theorem for DC Circuit
|
SE-625 |
| 53 |
Tellegan's Theorem for AC Circuit
|
SE-625AC |
| 54 |
Tellegan's Theorem for AC Circuit with Digital Meters
|
SE-625ACDM |
| 55 |
Tellegan's Theorem for DC Circuit with Digital Meters,
|
SE-625DM |
| 56 |
Duality Theorem for DC Circuit
|
SE-626 |
| 57 |
Duality Theorem for AC Circuit
|
SE-626AC |
| 58 |
Duality Theorem for AC Circuit with Digital Meters
|
SE-626ACDM |
| 59 |
Duality Theorem for DC Circuit with Digital Meters
|
SE-626DM |
| 60 |
Compensation Theorem for DC Circuit,
|
SE-627 |
| 61 |
Compensation Theorem for AC Circuit,
|
SE-627AC |
| 62 |
Compensation Theorem for AC Circuit with Digital Meters
|
SE-627ACDM |
| 63 |
Compensation Theorem for DC Circuit with Digital Meters
|
SE-627DM |
| 64 |
Thevenin’s, Norton’s Theorem for DC Circuit
|
SE-628 |
| 65 |
Thevenin’s, Norton’s Theorem for AC Circuit,
|
SE-628AC |
| 66 |
Thevenin’s, Norton’s Theorem for AC Circuit with Digital Meters
|
SE-628ACDM |
| 67 |
Thevenin’s, Norton’s Theorem for DC Circuit with Digital Meters,
|
SE-628DM |
| 68 |
Maximum Power, Reciprocity and Superposition Theorem for DC Circuit
|
SE-629 |
| 69 |
Maximum Power, Reciprocity and Superposition Theorem for AC Circuit,
|
SE-629AC |
| 70 |
Maximum Power, Reciprocity and Superposition Theorem for AC Circuit with Digital Meters
|
SE-629ACDM |
| 71 |
Maximum Power, Reciprocity and Superposition Theorem for DC Circuit with Digital Meters
|
SE-629DM |
| 72 |
Two Port Network for Z & Y Parameters for DC Circuit,
|
SE-630 |
| 73 |
Two Port Network for Z & Y Parameters for AC
|
SE-630AC |
| 74 |
Two Port Network for Z & Y Parameters for AC with Digital Meters
|
SE-630ACDM |
| 75 |
Two Port Network for Z & Y Parameters for DC with Digital Meters
|
SE-630DM |
| 76 |
Two Port Network for ABCD Parameters for DC Circuit
|
SE-631 |
| 77 |
Two Port Network for ABCD Parameters for AC
|
SE-631AC |
| 78 |
Two Port Network for ABCD Parameters for AC with Digital Meters
|
SE-631ACDM |
| 79 |
Two Port Network for ABCD Parameters for DC with Digital Meters,
|
SE-631DM |
| 80 |
Two Port Network for h & g Parameters for DC Circuit,
|
SE-632 |
| 81 |
Two Port Network for h & g Parameters for AC
|
SE-632AC |
| 82 |
Two Port Network for h & g Parameters for AC with Digital Meters
|
SE-632ACDM |
| 83 |
Two Port Network for h & g Parameters for DC with Digital Meters
|
SE-632DM |
| 84 |
Wheatstone Bridge
|
SE-633 |
| 85 |
Kelvin’s Bridge (Double bridge)
|
SE-634 |
| 86 |
Maxwell’s Bridge
|
SE-635 |
| 87 |
Hay’s Bridge
|
SE-636 |
| 88 |
Owen’s Bridge
|
SE-637 |
| 89 |
Desauty’s Bridge
|
SE-638 |
| 90 |
Desauty’s and ScheringBridge
|
SE-638C |
| 91 |
Anderson’s Bridge
|
SE-639 |
| 92 |
Schering Bridge
|
SE-640 |
| 93 |
Wein Bridge
|
SE-641 |
| 94 |
Capacitor Charging & Discharging
|
SE-642 |
| 95 |
Capacitor Charging & Discharging with 2 Digital Meters
|
SE-642DM |
| 96 |
Step Response of RC First order Circuit
|
SE-643 |
| 97 |
Step Response of RLC Second order Circuit
|
SE-644 |
| 98 |
Capacitance of Series Combinations
|
SE-645 |
| 99 |
Capacitance of Parallel Combinations
|
SE-646 |
| 100 |
Pie to T Network Converter
|
SE-647 |
| 101 |
T to Pie Network Converter
|
SE-648 |
| 102 |
Pie to T and T to Pie Network Converter
|
SE-649 |
| 103 |
Constant K-Type Low Pass Filter
|
SE-650 |
| 104 |
Constant K-Type High Pass Filter
|
SE-651 |
| 105 |
Constant K-Type Band Pass Filter
|
SE-652 |
| 106 |
Constant K-Type Band Reject Pass Filter
|
SE-653 |
| 107 |
Constant M-Type Low Pass Filter
|
SE-654 |
| 108 |
Constant M-Type High Pass Filter
|
SE-655 |
| 109 |
Constant M-Type Band Pass Filter
|
SE-656 |
| 110 |
Constant M-Type Band Reject Pass Filter
|
SE-657 |
| 111 |
Constant K-Type Passive Filter Trainer
|
SE-658 |
| 112 |
Constant M-Type Passive Filter Trainer
|
SE-659 |
| 113 |
RC Low, High & Band Pass Filter
|
SE-660 |
| 114 |
Resistance of Series Combinations
|
SE-661 |
| 115 |
Resistance of Parallel Combinations
|
SE-662 |
| 116 |
Resistance of Series & Parallel Combinations
|
SE-663 |
| 117 |
Capacitance of Series & Parallel Combinations
|
SE-664 |
| 118 |
Step Response of RL First order Circuit
|
SE-665 |
| 119 |
Thevenin, Norton & Superposition Theorem
|
SE-666 |
| 120 |
Thevenin, Norton & Superposition Theorem with 2 Digital Meters
|
SE-666DM |
| 121 |
Step Response of RC & RL First order Circuit
|
SE-667 |
| 122 |
Step Response of RL,RC & RLC Circuit
|
SE-668 |
| 123 |
Lissajous Pattern Trainer
|
SE-669 |
| 124 |
Study of Transformer
|
SE-670 |
| 125 |
Twin - T Network
|
SE-671 |
| 126 |
Network Reduction Techniques Trainer with 2 Digital Meters
|
SE-672DM |
| 127 |
Measurement of Medium Resistance with 2 Digital Meters
|
SE-673DM |
| 128 |
Mesh & Nodal Analysis for DC with 2 Digital Meters
|
SE-674 |
| 129 |
Mesh & Nodal Analysis for AC with 2 Digital Meters
|
SE-675 |
| 130 |
Symmetrical T Attenuator
|
SE-676 |
| 131 |
Symmetrical Pi Attenuator
|
SE-677 |
| 132 |
Mega Ohm Bridge
|
SE-678 |
| 133 |
Phase Difference of RL,RC,RLC Series Circuit
|
SE-679 |
| 134 |
RL,RC,RLC Series Circuit
|
SE-680 |