IEEE 421.5-2016
$117.54
IEEE Recommended Practice for Excitation System Models for Power System Stability Studies
| Published By | Publication Date | Number of Pages |
| IEEE | 2016 | 207 |
Revision Standard – Active. Excitation system and power system stabilizer models suitable for use in large-scale system stability studies are presented. Important excitation limiters and supplementary controls are also included. The model structures presented are intended to facilitate the use of field test data as a means of obtaining model parameters. The models are, however, reduced order models and do not necessarily represent all of the control loops of any particular system. The models are valid for frequency deviations of ±5% from rated frequency and oscillation frequencies up to 3 Hz. These models would not normally be adequate for use in studies of subsynchronous resonance or other shaft torsional interaction behavior. Delayed protective and control features that may come into play in long-term dynamic performance studies are not represented. A sample set of data for each of the models, for at least one particular application, is provided.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | IEEE Std 421.5™-2016 Front Cover |
| 2 | Title page |
| 4 | Important Notices and Disclaimers Concerning IEEE Standards Documents |
| 7 | Participants |
| 9 | Introduction |
| 10 | Contents |
| 14 | 1. Overview 1.1 Scope 1.2 Background |
| 15 | 1.3 Limitations |
| 16 | 1.4 Summary of changes and equivalence of models |
| 19 | 2. Normative references 3. Definitions |
| 20 | 4. Representation of synchronous machine excitation systems in power system studies |
| 22 | 5. Synchronous machine terminal voltage transducer and current compensation models 5.1 Terminal voltage sensing time constant |
| 23 | 5.2 Current compensation |
| 26 | 6. Type DC—Direct current commutator rotating exciter 6.1 General |
| 27 | 6.2 Type DC1A excitation system model 6.3 Type DC1C excitation system model |
| 29 | 6.4 Type DC2A excitation system model 6.5 Type DC2C excitation system model |
| 30 | 6.6 Type DC3A excitation system model |
| 31 | 6.7 Type DC4B excitation system model 6.8 Type DC4C excitation system model |
| 33 | 7. Type AC—Alternator supplied rectifier excitation systems 7.1 General |
| 34 | 7.2 Type AC1A excitation system model 7.3 Type AC1C excitation system model |
| 35 | 7.4 Type AC2A excitation system model 7.5 Type AC2C excitation system model |
| 36 | 7.6 Type AC3A excitation system model |
| 37 | 7.7 Type AC3C excitation system model 7.8 Type AC4A excitation system model |
| 38 | 7.9 Type AC4C excitation system model 7.10 Type AC5A excitation system model |
| 39 | 7.11 Type AC5C excitation system model 7.12 Type AC6A excitation system model 7.13 Type AC6C excitation system model |
| 40 | 7.14 Type AC7B excitation system model |
| 41 | 7.15 Type AC7C excitation system model |
| 43 | 7.16 Type AC8B excitation system model 7.17 Type AC8C excitation system model |
| 45 | 7.18 Type AC9C excitation system model |
| 48 | 7.19 Type AC10C excitation system model |
| 52 | 7.20 Type AC11C excitation system model |
| 54 | 8. Type ST—Static excitation systems 8.1 General 8.2 Type ST1A excitation system model |
| 55 | 8.3 Type ST1C excitation system model |
| 57 | 8.4 Type ST2A excitation system model 8.5 Type ST2C excitation system model |
| 58 | 8.6 Type ST3A excitation system model |
| 59 | 8.7 Type ST3C excitation system model |
| 60 | 8.8 Type ST4B excitation system model 8.9 Type ST4C excitation system model |
| 61 | 8.10 Type ST5B excitation system model |
| 62 | 8.11 Type ST5C excitation system model 8.12 Type ST6B excitation system model |
| 63 | 8.13 Type ST6C excitation system model |
| 65 | 8.14 Type ST7B excitation system model 8.15 Type ST7C excitation system model |
| 67 | 8.16 Type ST8C excitation system model |
| 68 | 8.17 Type ST9C excitation system model |
| 69 | 8.18 Type ST10C excitation system model |
| 72 | 9. Type PSS—Power system stabilizers 9.1 General |
| 73 | 9.2 Type PSS1A power system stabilizer model 9.3 Type PSS2A power system stabilizer model |
| 74 | 9.4 Type PSS2B power system stabilizer model 9.5 Type PSS2C power system stabilizer model |
| 76 | 9.6 Type PSS3B power system stabilizer model 9.7 Type PSS3C power system stabilizer model |
| 77 | 9.8 Type PSS4B power system stabilizer model 9.9 Type PSS4C power system stabilizer model |
| 79 | 9.10 Type PSS5C power system stabilizer model 9.11 Type PSS6C power system stabilizer model |
| 81 | 9.12 Type PSS7C power system stabilizer model |
| 83 | 10. Type OEL—Overexcitation limiters 10.1 General 10.2 Field winding thermal capability |
| 85 | 10.3 OEL types 10.4 Type OEL1B overexcitation limiter model |
| 88 | 10.5 Type OEL2C overexcitation limiter model |
| 90 | 10.6 Type OEL3C overexcitation limiter model |
| 91 | 10.7 Type OEL4C overexcitation limiter model |
| 92 | 10.8 Type OEL5C overexcitation limiter model |
| 94 | 11. Type UEL—Underexcitation limiters 11.1 General |
| 95 | 11.2 Type UEL1 underexcitation limiter model |
| 96 | 11.3 Type UEL2 Underexcitation limiter model |
| 97 | 11.4 Type UEL2C underexcitation limiter model |
| 100 | 12. Type SCL—Stator current limiters 12.1 General |
| 102 | 12.2 Type SCL1C stator current limiter model |
| 103 | 12.3 Type SCL2C stator current limiter model |
| 107 | 13. Types PF and VAR—Power factor and reactive power controllers and regulators 13.1 General |
| 109 | 13.2 Power factor input normalization |
| 113 | 13.3 Voltage reference adjuster |
| 114 | 13.4 Power factor controller Type 1 |
| 115 | 13.5 Var controller Type 1 |
| 116 | 13.6 Power factor controller Type 2 |
| 117 | 13.7 Var controller Type 2 |
| 118 | 14. Supplementary discontinuous excitation control 14.1 General |
| 119 | 14.2 Type DEC1A discontinuous excitation control |
| 121 | 14.3 Type DEC2A discontinuous excitation control 14.4 Type DEC3A discontinuous excitation control |
| 123 | Annex A (normative) Nomenclature |
| 124 | Annex B (normative) Per-unit system |
| 128 | Annex C (normative) Saturation function and loading effects C.1 General C.2 Generator saturation |
| 129 | C.3 Rotating exciter saturation |
| 132 | Annex D (normative) Rectifier regulation |
| 135 | Annex E (normative) Block diagram representations E.1 General E.2 Simple integrator |
| 136 | E.3 Simple time constant |
| 137 | E.4 Lead-lag block |
| 138 | E.5 Proportional-integral (PI) block |
| 139 | E.6 Proportional-integral-derivative (PID) block |
| 140 | E.7 Washout block |
| 141 | E.8 Filtered derivative block E.9 Logical switch block |
| 143 | Annex F (informative) Avoiding computational problems by eliminating fast-feedback loops F.1 General F.2 Type AC3C excitation system model |
| 146 | F.3 Other Type AC excitation system models |
| 148 | Annex G (normative) Paths for flow of induced synchronous machine negative field current G.1 General |
| 149 | G.2 No special provision for handling negative field current |
| 150 | Annex H (informative) Sample data H.1 General |
| 151 | H.2 Type DC1C excitation system |
| 152 | H.3 Type DC2C excitation system |
| 153 | H.4 Type DC3A excitation system |
| 154 | H.5 Type DC4C excitation system |
| 155 | H.6 Type AC1C excitation system |
| 156 | H.7 Type AC2C excitation system |
| 157 | H.8 Type AC3C excitation system |
| 158 | H.9 Type AC4C excitation system H.10 Type AC5C excitation system |
| 159 | H.11 Type AC6C excitation system |
| 161 | H.12 Type AC7C excitation system |
| 164 | H.13 Type AC8C excitation system |
| 165 | H.14 Type AC9C excitation system |
| 167 | H.15 Type AC10C excitation system |
| 168 | H.16 Type AC11C excitation system |
| 169 | H.17 Type ST1C excitation system |
| 172 | H.18 Type ST2C excitation system H.19 Type ST3C excitation system |
| 175 | H.20 Type ST4C excitation system |
| 177 | H.21 Type ST5C excitation system |
| 178 | H.22 Type ST6C excitation system |
| 179 | H.23 Type ST7C excitation system |
| 180 | H.24 Type ST8C excitation system |
| 181 | H.25 Type ST9C excitation system |
| 182 | H.26 Type ST10C excitation system H.27 Type PSS1A power system stabilizer H.28 Type PSS2C power system stabilizer |
| 183 | H.29 Type PSS3C power system stabilizer H.30 Type PSS4C power system stabilizer |
| 187 | H.31 Type PSS5C power system stabilizer |
| 188 | H.32 Type PSS6C power system stabilizer |
| 189 | H.33 Type PSS7C power system stabilizer |
| 190 | H.34 Type OEL1B overexcitation limiter H.35 Type OEL2C overexcitation limiter |
| 192 | H.36 Type OEL3C overexcitation limiter H.37 Type OEL4C overexcitation limiter |
| 193 | H.38 Type OEL5C overexcitation limiter |
| 194 | H.39 Type UEL1 underexcitation limiter |
| 195 | H.40 Type UEL2C underexcitation limiter |
| 196 | H.41 Type SCL1C stator current limiter |
| 197 | H.42 Type SCL2C stator current limiter |
| 199 | H.43 Power factor controller Type 1 |
| 200 | H.44 Power factor controller Type 2 H.45 Var controller Type 1 H.46 Var controller Type 2 |
| 201 | Annex I (informative) Manufacturer model cross-reference |
| 204 | Annex J (informative) Bibliography |
| 207 | Back Cover |
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