Rectifier Chassis (Typical) Control Chassis (Typical) The SSE Solid State Shunt Static Exciter/Regulator offers the perforance and reliability deanded by industrial and utility users. Basler's SSE utilizes solid state analog design to provide high initial response for iproved otor starting and fast voltage recovery. t ay replace the rotary brush type exciter, eliinating ost routine aintenance and repair. This static excitation syste has a high operating efficiency and low operating cost. On synchronous otor applications, the SSE ay be used with a Basler VAR/Power Factor Controller to autoatically aintain constant VARS or power factor on the otor during variations on otor loads. FEATURES Autoatic or anual voltage control operation Selectable single or three phase voltage sensing Paralleling provisions Voltage liited Volts/Hertz copensation High initial response per EEE 421.2 High efficiency Regulation better than ±%% Solid state circuitry Wide selection of accessories Modular design SSE r---::---- RECTFER Power CHASSS nput TYPCAL POWER TRANSFORMER SSE CONTROL CHASSS Figure 1 - Application Diagra DC Field Excitation Basler Electric 11SSE11 Shunt/Static Exciter /Regu a tors DESCRPTON AND SPECFCATONS Page 2 SELECTON TABLE Page3 NTERCONNECT AND CONTROL CHASSS DAGRAMS Pages 4 and 5 ACCESSORES Page 6 and 7 ORDERNG Page 8 ""'"''"""' - P.. BOX 269 HGHLAND, LLNOS, U.S.A. 62249 PHONE 618 654-2341 FAX 618 654 2351 SHB-1 9-98
"SSE" Shunt Static Exciter/Regulators The SSE consists of a control chassis, power rectifier chassis, and electrical power isolation transforer: all the eleents required to aintain generator terinal voltage within±%%. This is accoplished by onitoring the terinal voltage and coparing it to a voltage reference. Any difference developed fro this coparison causes an iediate change in the de output of the static exciter to the generator field to noralize the ac generator output voltage. Standard features of the static exciter/regulator include selection of single or three phase voltage sensing. A voltage liited Volts/Hertz circuit is standard. t is used to reduce generator voltage as a function of prie over speed. A user-selectable 1 P.U. or 2 P.U. Volts/Hertz circuit is available to prevent generator field and stator heating caused by low prie over speed. An LED is provided for indication during underfrequency operation. See Figures 2a and 2b. When ultiple generators are operated in parallel, a built-in reactive droop copensation circuit is used to balance VAR level sharing between generators to Regulation Better than ± WYo for load application or rejection after all transients have decayed Exciter/Regulator Response Less than 5 illiseconds Teperature Coefficient Better than 1% for a 5 C abient teperature change Autoatic Voltage Adjustent Range ± 1% noinal voltage Sensing Voltage 6Hz, 12-139,28-24,416-48,52-6, ±1% 5Hz, 1-119, 22-24, 38-415, ± 1% Maxiu burden per phase: 1 OVA DESCRPTON iniize the circulating current that ay otherwise occur. A built-in anual control offers easy troubleshooting and reliable backup as an alternate for the autoatic voltage control. Voltage shutdown is accoplished by electronically shutting off the rectifier bridge or by a contactor, depending on exciter rating, causing an iediate decay of generator output voltage. Voltage buildup is accoplished by rectifying the residual voltage fro the generator output and applying it to the generator field. (A 5% iniu residual voltage is required.) The SSE ay optionally be equipped with a contactor to interrupt ac power for generator voltage shutdown. For positive generator voltage buildup, optional field flashing relays ay be selected to apply the station's battery power to the generator field. An overflash prevention circuit reoves field excitation when the generator voltage has not built up within a predeterined tie. SPECFCATONS Power Factor.8 Underfrequency Copensation Paraeters See Figures 2a and 2b Abient operating teperature -4 C to +5 C (-4 F to + 122 F) Storage teperature -65 C to +85 C (-85 F to + 185 F) 2 Note: AC Shutdown and Field Flashing Contactors are standard on SSE25 odels rated up to 4 aps. 1 11 6 1 V/Hf vy /: 1/ : TWG V/Hz l 1 2 3 4 5 6 FREQUENCY Figure 2b - Typical 5Hz Voltage/Frequency Characteristic Curve Figure 2a - Typical 6Hz Voltage/Frequency Characteristic Curve 1 9 8 7 / }1 1/r V/Hl ;; j 1 TWCE V/Hz 1 2 3 4 5 6 FREQUENCY
6 = - - --i l\)33 (}18( - Y2. a fir g-ggq_cg w"' "' n "' Ul 5" gj ::r -e c."'ill o,... C/) fll en 1 ro en CD - c.. o c. S"- cg. - ::;; c::ui-::1 8 ill - (1) - roiil : (/).. 3 3 "E 3" ::!1 P.t - "'... - 3 ill (Q ::(i)o Q.ro ill ro-.< 5.g_ (1) (/)..,., c:: ro.q c: (1)..,., n. Pi" (/) ::r (") 5" ::r (Q ill ill (Q c. (1) ::;; )> () g: Ul ::r!'i : Sl. ()" ::;; (") ill n. Cil 3 c:: Cii c. co n. (") ::r ill (/) (/) w (1) Model No. SSE 63-4.5 SSE 125-4.5 SSE 63-6.5 SSE 125-6.5 SSE 125-9 SSE 125-13 SSE 125-17 SSE 25-17 SSE 63-25 SSE 125-25 SSE 25-25 SSE 125-33 SSE 25-33 SSE 125-5 SSE 25-5 SSE 125-65 SSE 25-65 SSE 125-1 SSE 25-1 SSE 125-125 SSE 25-125 SSE 25-15 SSE 25-2 L Burder Max. AC Supply Max. KVA Cont. Cont. VDC 63 ADC 225/45 8 72 225/45 8 125 36 225/45 12 63 13 225/45 24/416 12 125 52 225/45 24/416 16 125 72 225/45 24/416 24 125 14 225/45 24/416 31 125 136 225/45 24/416 31 25 68 225/45 45 63 397 225/45 24/416 225/45 24/416 45 25 1 225/45 24/416 125 264 225/45 24/416 59 25 132 225/45 24/416 125 4 225/45 24/416 9 25 2 225/45 24/416 117 125 52 225/45 24/416 117 25 26 225/45 24/416 18 125 8 225/45 24/416 18 25 4 24/416 13,8 225 125 1 24/416 13,8 225 25 5 24/416 13,8 27 25 6 24/416 13,8 36 25 8 45 125 2 59 9 Generator Field Power Power 1 Minute 1 Minute Min. Field Transforer Forcing Forcing KW Resistance Part VDC ADC Ohs Nuber 9 13 4.5.875 18 52 4.5 3.472 BE 15482 9 147 612 BE 18222 18 75 6.5 2.44 BE 1521 BE 1523 18 14 9 1.736 BE 1526 BE 1528 18 15 13 1.22 BE 15211 BE 15213 18 196 17.919 BE 15221 BE 15223 36 98 17 3.676 BE 15221 BE 15223 9 567 25.159 BE 1583 18 288 25.625 BE 15226 BE 15228 36 144 25 2.5 BE 15226 BE 15228 18 38 33.473 BE 15236 BE 15238 36 19 33 1.894 BE 15236 BE 15238 18 576.313 BE 15241 BE 15243 36 288 1.25 BE 15241 BE 15243 18.24 BE 1831 BE 15248 36.962 BE 1831 BE 15248 18 1152 1.156 BE 15231 BE 15233 36 576 1.625 BE 15231 BE 15233 18 144 125.125 BE 219 BE 2191 36 72 125.5 BE 219 BE 2191 36 864 15.417 BE 2192 BE 2193 36 1152 2.313 BE 2194 BE 2195 6.5 5 5 749 65 374 65 Power Transforer Diensions (W X H X D) 17x16x8 (432x46x23) 18x13x1 (457x33x254) 19x17x7 (482x432x178) 24x16x1 (69x46x254) 2x18x9 (58x457x229) 25x18x12 (635x457x35) 2x19x19 (58x482x495) 26x18x13 (66x457x33) 24x2x11 (69x58x279) 27x18x13 (686x457x33) 24x2x11 (69x58x279) 27x18x13 (685x457x33) 21x2x13 (533x58x33) 25x2x13 (635x58x33) 25x21x14 (635x533x355) 25x2x13 (635x58x33) 25x21x14 (635x533x355) 25x21x14 (635x533x355) 26x22x15 (66x558x381) 25x21x14 (635x533x355) 26x22x15 (66x558x381) 31x21x18 (787x533x457) 3x27x15 (762x685x381) 31x21x18 (787x533x457) 3x27x 15 (762x685x381) 25x3x 16 (635x762x46) 3x28x16 (762x711x46) 25x3x16(635x762x46) 3x28x16 (762x711x46) 31x23x19 (787x584x482) 34x31x21 (864x787x533) 31x23x19 (787x584x48 34x31x21 (864x787x533) 36x33x23 (914x838x584) 44x31x23 (1118x787x584) 36x33x23 (914x838x584) 44x31x23 (1118x787x584) 38x35x24 (965x889x61) 46x33x24 (1168x838x61) 41 x38x26 ( 141 x965x66) 49x36x28 (1245x914x711) Rectifier Chassis Diensions (W X H x D) 19x23x9 (483x584x229) 19x33x9 (483x838x229) 26x48x11 (66x1219x279) 26x55x9 (66x1397x229) 26x5x9 (66x127x229) 26x48x11 (66x1219x279) 26x5x9 (66x127x279) 26x55x1 (66x1397x254) 26x6x1 (66x1524x254) 26x5x12 (66x127x34) 26x6x1 (66x1524x254) 26x55x18 (66x1397x457). ElectricalPartManuals. co Equipent Weig 265 lb (12 Kg) 34 lb (154 Kg) 35 lb (158 Kg) 42 lb (19 Kg) 43 lb (195 Kg) 38 lb (172 Kg) 43 lb (195 Kg) 47 lb (213 Kg) 56 lb (254 Kg) 54 lb (245 Kg). 6 lb (272 Kg) 58 lb (263 Kg) 8 lb (363 Kg) 84 lb (38 Kg) 72 lb (326 Kg) 8 lb (362 Kg) 72 lb (326 Kg) 89 lb (44 Kg) 77 lb (349 Kg) 89 lb (44 Kg) 77 lb (349 Kg) 15 lb (476 Kg) 115 lb (522 Kg) 15 lb (476 Kg) 115 lb (522 Kg) 153 lb (694 Kg) 143 lb (949 Kg) 151 lb (985 Kg) 141 lb (64 Kg) 194 lb (88 Kg) 184 lb (88 Kg) 198 lb (844 Kg) 188 lb (853 Kg) 219 lb (933 Kg) 221 lb (13 Kg) 235 lb (166 Kg) en :: c z -1 - -1 lj en en r -1- z ; r en CJ) n;! CJ) :::r c: ::s - 5a a c; >< n ::;: ell... ell (Q c: s:... ll
"SSE" Shunt Static Exciter/Regulators FLASH lng SOURCE - 4 GEN J F- F+ rv1rr L UNT CT 5A - POWER TRANSFORMER FOF+ F- P1P21 P31 RECTFER CHASSS G11 K1G2K2G3KQ_-{_K41A LB 1 C J ) ( ( ) G11K1G2K2G3K3CHK41 A B C ffi 1-139 } 28-24 -...- ' 38-48 5-6 1-,. J 28-24 - E2 ' 38-48 R AUTO VOLT cw 6 ADJUST 7 5 r SSE L 5oo-6oo oo CONTROL CHASSS Figure 3 Typical nterconnection Diagra for SSE with Generator x A B c, ST S3 "C1 :.J.Oo-J rff R5 ST OP ART SW1 AUTO SW2 BASE (MANUAL) BASE (MANUAL) ADJUST 5
5Q F- F+ -F-- : VAR-POWER FACTOR CONTROLLER "SSE" Shunt Static Exciter/Regulators +-L1 ----------------------C-T---------------e---------------- ----+----- +-o ----,_---e-----tsa-----f o R4 AUTO VOLT ADJUST soon SSE CONTROL CHASSS!STARTER Figure 4- Typical nterconnection Diagra with a Synchronous Motor NUMBERS N PARENTHESES ARE N MLLMETERS PARALLELNG TRANSFORMER CONNECTONS AUTO/MANUAL MODE SWTCH S2 r Qrs3 :::; 19. (482.6) 12 '" 28-24 16-48 52D-6 " c s "' B3 TOP VEW 19. (482.6) Figure 5 - Control Chassis NOTES: 1. All ites within grey shading are supplied with SSE static exciter. 2. These drawings are not intended for installation purposes. Refer to the applicable instruction anual for detailed inforation. STOP START AUTO BASE (MANUAL) R5 BASE (MANUAL) ADJUST 5Q REACTVE r-r:...rf=:;;;r-,....1.. COMPENSATON ADJUST RESSTOR (R3) ----+-+ PHASE BALANCE ADJUST (R2B) ------+ PHASE BALANCE ADJUST (R41) REVERSE PHASE L.:::.:..= ::==:::t--t NDCATOR (DS1) RANGE ADJUST (R17) STABLTY ADJUST (R15) OFFSET CALBRATON (R3) THRESHOLD ADJUST (R2B) UNDERFREO. NDCATOR (DS1) L.:;::-..:=FRft--=17(:;- :r-.a... VOLTS/HERTZ JUMPER (TB2) '--;;;;;...--+ 5/6HZ JUMPER (TB3) '---...-,::::---+ 1 PH. 3 PH JUMPER (TB4) 5
"SSE" Shunt Static Exciter/Regulators OPTONAL SSE STATC EXCTER ACCESSORES for enhanced syste perforance ENCLOSURE All eleents of the excitation syste can be ounted in a standard steel cubicle. The cubicle is rigid and self-supporting with full length doors in the low voltage copartent. Easy access is provided to all necessary controls and terinal points to ake installation easy and trouble-free. The cabinet design is NEMA, ventilated with gasketed doors. When requested, the cabinet ay also include interior lighting with switch convenience outlet, therostatically controlled space heaters, current liiting fuses for priary of power potential transforer and instruent potential transforers. ESS- EXCTATON SUPPORT SYSTEM When selective tripping of circuit breakers requires the generator to provide current under fault conditions, an excitation support syste can provide three phase current support and aid the starting of large otors. NEGATVE FELD FORCNG Refer to Basler product bulletin TBY for a description of our SSE-N, Negative Field Forcing Shunt Exciter/Regulator Syste. METERNG- AC and DC All eters are switchboard type with 1% accuracy and 27 dial scale. Metering ay include ac volteter, de field volteter, de field aeter, and Auto/Manual null eter for bupless transfer fro autoatic to anual voltage control. DODE FALURE DETECTOR When power seiconductor functional status is required, a onitor can be provided with the static excitation syste to annunciate when rectifier failure has occurred. VAR/POWER FACTOR CONTROLLER This device is used for parallel operation with the utility to regulate generator power factor or reactive power at a desired level without operator action. t is also used to aintain constant VARs or power factor on synchronous otor applications. AUTO TRACKNG MCROPROCESSOR-BASED REFERENCE ADJUSTER Used to adjust the anual voltage control for tracking the output of the autoatic voltage regulator. This option allows for bupless transfer when switching fro autoatic control to anual control. MCROPROCESSOR-BASED REFERENCE ADJUSTER Used to reotely control the regulation setpoint fro one or ore locations. PROTECTVE RELAYS A wide variety of protective relays can be included with the static excitation syste, including Field Ground Detection Relay, Voltage Phase Balance Relay, Underexcitation Relay with tie delay, Overexcitation Relay with tie delay, and Overvoltage Relay. AC SHUTDOWN and FELD FLASH CONTACTOR ASSEMBLY A contactor assebly can be supplied for all odels. The ac contactor reoves ac input 6 power to the exciter to shut down excitation. The contactor is controlled fro reote contacts. A field flashing contactor provides fast, positive voltage buildup fro a de battery reote fro the exciter. The field flashing circuit also includes an overflash protection circuit to autoatically interrupt the de source fro the field when the generator terinal voltage has not built up within 2 seconds. All 25Vdc SSEs rated up to 4 aps include Field Flashing and AC Shutdown contactors ounted on rectifier chassis. (Designed for 125Vdc battery. For operating voltages other than 125Vdc, consult the factory.).2 4.6.8 1 1.2 14 KLOWATS PER UNT Figure 6 - Miniu/Maxiu Excitation Liiting MNMUM/MAXMUM EXCTATON LMTER The excitation liiter perfors two functions when used with the SSE. As a axiu excitation liiter, it senses the field current output of the SSE and liits the field current to prevent overheating of the field. As a iniu excitation liiter, it senses the leading VARs into the generator and liits the excitation to prevent loss of synchronization and end-iron overheating during parallel operation. The liiter is adjustable to the achine's specific requireents. See Figure 6. OVER AND UNDER EXCTATON PROTECTVE RELAYS When positive generation syste shutdown is required due to exciter alfunction, the Basler Over/Under Excitation relays provide preprograed excitation liits to cause tripping of the shunt static exciter. POWER SYSTEM STABLZER When the power plant is subject to local or interarea ode oscillations, a Power Syste Stabilizer (PSS) can be provided. The PSS works through the suing point of the excitation syste to eliinate the low frequency power oscillations typically in the range of.2-3 Hertz. The PSS is a two input stabilizer (copensated frequency and power) that provides a conditioned signal into the excitation syste to odulate a braking torque on the rotor via the excitation syste to resolve the power oscillation.
ACCESSORES "SSE" Shunt Static Exciter/Regulators The list below reflects soe of the coonly requested accessories. The SSE syste is a highly adaptable syste, able to accoodate virtually any custo-designed control schee. Send in your specifications for a design custoized to your needs. Standard Optional Feature Accessories Custoer Required Custoer Required Description Gen. Motor Gen. Motor _{Generator) 1) Underfrequency Copensation X X 2) Parallel Co_Q_ensation X X 3) Manual Control X X 4) Autoatic Regulation ±1f2% X 5) Three Phase ensg X 6) Single Phase Sensing X Min/Max Excitation Liiting X X 8) Power Transforer Priary Fusing X X 9) Failed Power Rectifier Detector X X 1) Autotracking Microprocessor-Based Reference Adjuster X 11) Nulling Meter X 12) AC Volteter X X 13) DC Volt/Aeter X X 14) Sensing Potential Transforer X X 15) Var/PF Controller X X 16) Field Ground Detection Rela_y X X 17) Voltage Phase Balance Relay X X 18} overvoltage Relay X X 19) overexcitation Relay w{tie Delay X X 2) Underexcitation Relay w!l ie Dela_y_ 1' X 7) 21) AC Shutdown and Field Flash Contactor Assebly X X 22) a) Enclosure NEMA X X b) Space heater with Therostat X X c) ncand. Light/Convenience Outlet X X d) Cabinet ounted Control Switches X X 23) ESS Excitation Support X 24) Microprocessor-Based Ref. Adjuster X X 251 Motor Surge Suppression X 262 Negative Forcing X 27) Power Syste Stabilizer X -- Figure 7 - SSE in cubicle. (Motor) 7
"SSE" Shunt Static Exciter/Regulators Deterine the following inforation: GENERATOR DATA 1) VOLTAGE (L-L) KW FREQUENCY POWER FACTOR PRME MOVER RPM 2) Generator Field Data at Rated Load and Power Factor Generator Field Voltage = Generator Field Resistance = 3) Deterine SSE voltage and kilowatt size: Vdc HOW TO ORDER Ohs a) Select the SSE voltage (63, 125 or 25) that equals or is greater than the field voltage at full load. b) Calculate the kilowatt size by squaring the SSE voltage divided by the generator field resistance. SSE Voltage Generator Field Resistance 2 1 = Kilowatts c) Fro Table on page 3, select the SSE where the kilowatt size atches or exceeds the kilowatts required by step b. nsure that the static exciter iniu resistance is equal to or less than the resistance of the generator field. d) Specify the noinal voltage rating for the excitation power transforer. EXAMPLE GENERATOR DATA 1) VOLTAGE (L-L) KW FREQUENCY POWER FACTOR 416 5 6.8' PRME MOVER Zi'%w-7 RPM U12 2) Generator Field Data at Rated Load and Power Factor Generator Field Voltage = 2 Vdc Generator Field Resistance =. 659 Ohs 3) Deterine SSE voltage and kilowatt size: a) Select the SSE voltage (63, 125 or 25) that equals or is greater than the field voltage at full load. 25 b) Calculate the kilowatt size by squaring the SSE voltage divided by the generator field resistance. SSE Voltage 25 2 Generator Field Resistance. 659 = _:_9--=5 Kilowatts c) Fro Table on page 3, select SS$25Q-()() nsure that the static exciter iniu resistance is equal to or less than the resistance of the generator field. d) Specify the noinal voltage rating for the excitation power transforer. -- Volts (Usually the sae as the generator voltage rating) Detailed saple specifications are available upon request. Contact the Basler Power Systes Group at the factory and ask for Basler Publication #3222. Basler Electric ROUTE 143, BOX 269, HGHLAND, LLNOS U.S.A. 62249 P.A.E. Les Pins, 67319 Wasselonne Cedex FRANCE PHONE 618-654-2341 FAX 618-654-2351 PHONE (33-3-88) 87-11 FAX (33-3-88) 87-88 http://www.basler.co, info@basler.co Printed in U.S.A