3adw000072r0601 dcs600 system description e f

13 4614 312 cur ref 3 v ref 2 314 323 4301 4304 4305

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Unformatted text preview: 41.15 1.28 1.17 via drive logic FIELD CUR REF M2 3.18 OPER MODE SELECT (15.16) < 5 Diagram for set to MAXIMUM FLUX (45.07), if FIX field selected (15.06) 44.23 FIELD 2 REF 15.05 3,4 MOTOR 1 M MOT 2 NOM FLD CUR 41.17 SECOND FIELD EXCITER 42.06 1.16 1.15 1.12 1.11 dcs_600\docu\fig_3a_a.dsf Field Current Measurem. Field Current Measurem. 3.22 3.21 3.20 3.19 FIELD CUR M2 REL FIELD CUR M2 FIELD CUR M1 REL FIELD CUR M1 CONV CUR ACT RL CONV CUR ACT MAINS VOLT ACT RL MAINS VOLT ACT 4096 = 100% of I_MOTx_FIELD_A CONV NOM CURR 4.13 Converter Current Measurem. Mains Voltage Measurem. MOTOR 2 M MOTOR NOM 99.03 CURRENT MOTOR NOM 99.02 VOLTAGE MOT 1 NOM FLD CUR 41.03 FIRST FIELD EXCITER USED FEX TYPE FIELD CUR REF M1 3.17 EMF Calc. EMF ACT FILT TC 46.06 1,2,4,5,6,7, 8,9,10,11,12,13 RL EMF VOLT ACT 1.19 FIRE UNIT SELECTED BRIDGE Armature Current Measurem. FIRING ANGLE 3.13 20.14 MIN FIRING ANGLE 20.15 LL HL LOAD CUR ACT FILT + + ALPHA_MAX Calc. OPTITORQUE Field reversal 3.15 FLUX/FIELD LINEARIZATION FLUX REF SUM 3.26 4096 == Motor nominal current 1.27 LOAD CUR ACT 43.06 43.03 ARM CUR PI P-GAIN DISCONT CUR LIMIT 43.02 CONTROL TYPE SEL PI-IP CURRENT CONTROLLER set to 0, if FIX field selected (15.06) VOLT ACTUAL FLUX REF FLD WEAK 3.25 EMF CON BLOCK LEV 46.05 EMF CON KP 46.03 EMF CON KI 46.04 EMF CONTROLLER 2.20 2.19 CUR LIM GEN BRIDGE 20.13 LL HL 20.12 CUR LIM MOT BRIDGE 45.02 flux/emf ref sel = EXT REF OR 46.07 flux ref sel = EXT REF V REF SLOPE 46.12 V COR 46.10 V STEP 46.11 V LIM P V LIM N 20.13 torque limit claculation 20.12 41.10 CUR REF SLOPE di/dt V ref Modification 3.24 3.28 CUR REF 2 scaled to NOM SUPPLY VOLT (42.06) 45.02 flux/emf ref sel = EXT REF MOTOR SPEED 45.01 FLUX REF 43.20 FLUX COR 3.29 AI V REF 41.19 INT EMF REF 45.03 EMF REF 46.08 3.14 SCALE FLUX REF FLD WEAK EMF REF SEL TORQUE CORRECTION 2.14 2.13 TORQ USED REF M N = 10000 = M max = 3.2 * M N MAX FIRING ANGLE ARMATURE CURRENT CONTROL U_SUPPLY Fig. 3.8/5: Inductive load current control II F 3-10 3ADW000072R0601 DCS600 System description e f 3.29 AI V REF 41.19 INT EMF REF 45.03 EMF REF 46.08 EMF REF SEL 43.21 FLUX STEP 43.20 FLUX COR 43.17 INT CUR REF FEX LINK REF 3.30 AI CUR REF 3.11 0 3 0 1 2 4 3 0 1 2 MUX MUX not used V REF 1 := LOCAL REF 3, if local mode; scaled to NOM SUPPLY VOLT (42.06) 45.02 flux/emf ref sel = EXT REF CURRENT REF 46.07 FLUX REF SEL 2.14 TORQUE CORRECTION 2.13 TORQUE USED REF V REF 1 46.13 46.14 3.27 CUR REF 1 V REF SLOPE 46.12 V COR 46.10 V STEP 46.11 REF SEL 43.15 V LIM P V LIM N FLD CUR @90% FLUX 41.16 FLD CUR @70% FLUX 41.15 FLD CUR @40% FLUX 41.14 3.26 3.25 V REF 2 EMF CON BLOCK LEV 46.05 EMF CON KP 46.03 EMF CON KI 46.04 EMF CONTROLLER FLUX REF EMF V ref Modification 3.24 43.16 SEL MAX MIN 43.15 REF SEL Reference Selection and min/maxLogic 41.10 CUR REF SLOPE di/dt 3.15 3.27 FLUX/FIELD LINEARIZATION 3.28 FLUX REF SUM CUR REF 1 3.23 VOLT ACTUAL CUR LIM GEN BRIDGE 20.13 LL HL 20.12 CUR LIM MOT BRIDGE - + 43.01 43.05 43.04 1.27 46.22 46.21 V I SEL 1 ARM R 41.11 41.12 V I SEL 2 4...
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This note was uploaded on 08/22/2011 for the course EEE 230 taught by Professor Subramanian during the Spring '07 term at University of California, Berkeley.

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