Preview only show first 10 pages with watermark. For full document please download

Cdg11-16

   EMBED


Share

Transcript

Types CDG 11 and CDG 16 Inverse Time Overcurrent and Earth Fault Relay  Types CDG 11 and CDG 16 Inverse Time Overcurrent and Earth Fault Relay  Relay withdrawn from case  Application The type CDG 11 relay is a heavily  damped induction disc unit with an inverse definite minimum time/ current characteristic. The relay  gives selective phase and earth fault overcurrent protection in time graded systems to transformers, ac machines and feeders, etc., and ensures that a minimum number of circuit breakers is tripped to clear a faulted section (see application publication R5087). Description The operating coil is wound to give time/current curves of the same shape on each of seven current taps which are selected by a plug setting bridge. The highest current tap is automatically selected when the plug is removed, so that adjustments can be made on load without opencircuiting the current transformer. conditions, and a low burden and overshoot. Adjustment of the time setting is made by rotating a knurled moulded disc against a graduated time multiplier scale. Technical data To give instantaneous protection under short circuit conditions, a high set overcurrent unit (either CAG 13 or CAG 19) can be fitted in the same case. Closing current The CDG 21 relay is a CDG 11 with an instantaneous unit. The CDG 31 is a triple pole version of the CDG 11 (with three overcurrent units or two overcurrent units and one earth fault unit in the centre). The CDG 16 is a variant of the CDG 11 arrangement, incorporating two normally open electrically isolated contacts. Starting current 103 - 110% of current setting. 130% of current setting. Resetting current The maximum current up to which the disc will completely reset is 90% of current setting. Time settings 0 - 3s at 10 times current setting. 0 - 1.3s at 10 times current setting. Resetting time  With the time multiplier set at 1.0 the resetting times of the above are 9s and 4s respectively. Overshoot On removal of a current equal to 20 times current setting the overshoot times of the above are 0.065s and 0.04s respectively. The relay has a high torque movement to ensure consistent timing, even under adverse 2  Accuracy  l The relay is calibrated at 50Hz or 60Hz and 20°C and falls into error class index E7.5 as given in BS142. Frequency error: Less than 8% for frequency variation of 2Hz; the time grading of a protective system would be unaffected by this error since all the relays would be similarly  affected. Current settings Table 1 - Preferred increments Setting range (A) Current settings available 0.05 - 0.2 0.05 0.06 0.075 0.10 0.12 0.15 0.2 0.1 - 0.4 0.1 0.12 0.15 0.2 0.24 0.3 0.4 0.2 - 0.8 0.2 0.24 0.3 0.4 0.48 0.6 0.8 0.25 - 1 0.25 0.3 0.375 0.5 0.6 0.75 1.0 Temperature error: For an overload equal to 10 times the current setting, the percentage timing errors at +45°C and 5°C are respectively: 0.5 - 2 0.5 0.6 0.75 1.0 1.2 1.5 2.0 1-4 1.0 1.2 1.5 2.0 2.4 3.0 4.0 1.5 - 6 1.5 1.8 2.25 3.0 3.6 4.5 6.0 1.3 second relay 4% and +4%, 3.0 second relay 3% and +4% 2.5 - 10 2.5 3.0 3.75 5.0 6.0 7.5 10.0 4 - 16 4.0 4.8 5.0 8.0 9.6 12.0 16.0  Auxiliary units and operation indicators Shunt reinforcing or series seal in auxiliary attracted armature units with a hand reset operation indicator, can be fitted. Relays supplied without an auxiliary unit have a hand reset operation indicator mechanically  operated by the disc. Standard coil ratings  Voltage operated (shunt) auxiliary  units: 30, 110, 125 or 220V dc at a nominal burden of 3W continuously  rated. Contacts One or two electrically separate normally-open self or hand reset contacts are fitted which will make and carry 7500VA for 0.5s with maxima of 30A and 660V ac or dc. Relays supplied without an auxiliary  unit have one or two pairs of normally-open self reset contacts which will make and carry 2500VA  for 0.5s with maxima of 10A and 660V ac or dc. The two contact relay  has a modified disc/contact assembly  and is designated CDG 16, CDG 26 or CDG 36. Table 2 - Standard increments Setting range (A) Current settings available 0.05 - 0.2 0.05 0.075 0.1 0.125 0.15 0.175 0.2 0.1 - 0.4 0.1 0.15 0.2 0.25 0.30 0.35 0.4 0.2 - 0.8 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.25 - 1 0.25 0.375 0.5 0.625 0.75 0.875 1.0 0.5 - 2 0.5 0.75 1.0 1.25 1.5 1.75 2.0 1-4 1.0 1.5 2.0 2.5 3.0 3.5 4.0 2.5 - 10 2.5 3.75 5.0 6.25 7.5 8.75 10.0 Thermal rating Continuous current rating Tap Multiples of tap setting current Short time current rating 1 2 3 4 5 6 7 4.5 3.7 3.2 2.7 2.6 2.4 2.2 The relay will withstand 20 x the maximum tap setting for 3s. Current operated (series) auxiliary units Minimum operating current in A (two taps) 0.5 second current rating in A Coil resistance in ohms 0.1 and 0.3 18 and 22 9.2 and 2.1 0.2 and 2.0 22 and 92 6.0 and 0.125 0.6 and 2.4 92 and 188 0.29 and 0.031 Other coil ratings can be supplied for both types of auxiliary unit. 3 Burdens Impedance characteristics Standard (3VA nominal) 2.5VA at current setting on lowest tap 3.5VA at current setting on highest tap Alternative with lower operating torque (CDG 11, 21 & 31 only) (1VA nominal) 1VA at current setting on lowest tap 1.9VA at current setting on highest tap Typical burden CDG 11 1VA 50Hz 2.5 - 10A  For 60Hz relays increase burden by 20% The impedance of a relay may be calculated by using Table 5 or Table 6 in conjunction with the relevant impedance current curve, see Figure 3 or 4. Example: To calculate the impedance, at 10 times setting, of a 3VA rated CDG 11 relay, setting range 1-4A 50Hz with preferred taps, and set to 2A, i.e. 50%: Table 3  VA burden Multiples of plug setting Refer to curves, Figure 4, i.e. for 3VA, and select the 50% curve from which the value at 10 times setting is 0.052. Tap setting value 1.0 3.0 10.0 20.0 2.5 1.0 5.5 34 130 3.75 1.1 6.8 44 168 5.0 1.1 7.8 60 220 Referring now to Table 6, for preferred taps 1-4A range, select the multiplying factor K for 50Hz, which gives: 6.25 1.4 9.8 78 297 6.3 x 0.052 = 0.325 ohms. 7.5 1.5 11.0 92 360 8.75 1.7 12.7 107 413 10.0 1.9 14.4 120 460 Typical burden CDG 11 3VA 50Hz 2.5 - 10A  For 60Hz relays increase burden by 20% Table 4  VA burden Multiples of plug setting Tap setting value 1.0 3.0 10.0 20.0 2.5 2.5 15 97 312 3.75 2.7 15 119 422 5.0 2.9 17 131 500 6.25 2.9 19 164 625 7.5 3.1 20 174 675 8.75 3.1 23 206 827 10.0 3.4 24 250 1,000 Table 5 Setting range (A) - Standard increments 0.05-0.2 0.1-0.4 0.2-0.8 0.25-1 0.5-2 1-4 2.5-10 K (50Hz) 2,500 625 156 100 25 6.3 1.0 K (60Hz) 2,750 687 171 110 28 6.8 1.1 Table 6 Setting range (A) - Preferred increments 0.05-0.2 0.1-0.4 0.2-0.8 0.25-1 0.5-2 1-4 1.5-6 2.5-10 4-16 K (50Hz) 2,500 625 156 100 25 6.3 2.8 1.0 0.39 K (60Hz) 2,750 687 171 110 28 6.8 3.1 1.1 0.45 4  AC trip circuit  Where an external tripping supply is not available, a relay can be supplied which trips the circuit breaker directly  using current from the line current transformer. Under fault conditions, the tertiary  winding on the relay current coil develops an ac voltage. This is rectified to energise the auxiliary  tripping relay, causing current to flow through the trip coil of the circuit breaker. See Figure 5. The contacts are rated for series trip coil currents up to 150A at 150V. Earthing arrangements  Although not included in the diagram, it is assumed that secondary CT and/ or VT circuits will be earthed as necessary in compliance with standard safety requirements and determined by the switchgear contractor user. If in doubt, please consult ALSTOM T & D Protection & Control for advice. Insulation The relay will withstand 2.0 kV rms 50Hz for 1 minute between all live parts and earth and between all circuits not intended to be connected together. It will also withstand 1 kV  rms 50Hz for 1 minute across open contacts. Technical data for CAG 13 Technical data for CAG 19 Current rating Current rating 1A or 5A. 1A or 5A. Settings 500 400 200 100 2000% 1600% 800% 400% } Settings at rated current continuously  adjustable 500 400 200 100 - 2000% 1600% 800% 400% } at rated current continuously  adjustable Resetting current The relay will reset at approximately 15% of current setting. Resetting current Operating time Operating time  Approximately 10 milli seconds at 5 times current setting. Not less than 80% of current setting. Less than 30 milli seconds at 5 times setting current. Resetting time Burdens 1.4 VA at lowest current setting to 18 VA at highest current setting.  VA burdens given above are applicable to all setting ranges. Thermal rating The relay will withstand 1.5 times the minimum current setting continuously and 12 times the maximum current setting for 3 seconds.  Within 30 milli seconds when resetting to no current. Transient overreach Less than 1% for system angles upto 88° on all settings. Burden 1.0 VA on lowest setting 3.0 VA on highest setting } at setting current Thermal rating  Accuracy  Continuous : Maximum setting current Short time Operation indicator : 20 x max. setting current for 3 seconds The relay is fitted with an operation indicator which is hand  Accuracy  reset by means of a push-rod protruding through the relay  case. Error class index : E 5 as per BS.142:1966 The relay conforms to error class index E 10.0 as per B.S.142:1966. Contacts 2 make self reset. Contacts 2 make self reset. 5 10 0 10 0 10 10    )   s    d   n   o 1   c   e   s    (   e   m    i    t   g   n    i    t   a   r   e   p 0.1    O 1.0 0.9 0.8 0.7 0.6 0.5 0.4 0.3 Time Multiplier settings 1.0 0.9 0.8 0.7 0.6 0.5 0.4    )   s    d   n   o 11   c   e   s    (   e   m    i    t   g   n    i    t   a   r   e   p 0.1    O 0.2 0.1 Instantaneous unit (CAG 19) Time Multiplier settings 0.3 0.2 0.1 Instantaneous unit (CAG 19) 0.01 0.01 Instantaneous unit (CAG 13) Instantaneous unit (CAG 13) 0.001 0.001 1 10 10 0 1 Multiples of setting current 10 10 0 Multiples of setting current Figure 1: Time-current characteristic, inverse time relay CDG 11, 1.3s Figure 2: Time-current characteristic, inverse time relay CDG 11, 3s Figure 3: CDG 11 impedance characteristic 1VA 50Hz. Figure 4: CDG 11 impedance characteristic 3VA 50Hz. 6  A  1 2 5 6 T1 B T1 C See note  A  3 + 1 v o BK  2 1 3 4  .  .  .    6    0    1    O    G    Z    M 1    l   m    l   m    A   m    1  .   m    0    1   k  .   c   5    0  .    1   o   0    4    /   l    1   b   a    0    4   e   n   h    3    t    b   i   o   i    V   o   t    P    t   a   w    T    l   e   e   r   u    i   r   g   a   s   w    i   n   n   r   s   i   v    l   e    d   l   e   a   a   p    l   e   p   e   s    l   o        W  .   c   a    A   k   d   r        t    h  .   x   s   t   e   e    t    i   m  n   n    h   n    t    i    t    i   u   m    5    h  .   m   w    t    i    0    d  .   r   e   w  a   m  .    k    d   h   2   c   e    0   l   e   i   o   v    t    i    /    l   o    b   c   p   w   3   p   x   1   n   e   o   e   e   i   u    l   s   f    t    b    b   o   a   t   e   r   r   e   o   l   u   e   a   p   t   s   s   s   p   d   n   r   a    i    d   o    l   s   a   l   a   c   l   a   d   e   d   e    l   r   w  a   e    l   e    i   n   e  .    l   o   n   h    t    k       A    C   i    t   o   h    t       :   e    t   o    N BE 5  Alarm See note  A  2  W 6 8 9 Note:  All three elements are the same and only one is shown.  Alarm and trip Ckt are paralleled. 8 7 T2 T1 T2 T1 C CT connection for overcurrent and earth fault protection 5 6 O/C 7 8 E/F T2 9 10 O/C Figure 6: Typical application and internal circuit diagram of Type CDG 31 relay with series seal in B 3 10 CT shorting contacts C B T1 Figure 5: Connection diagram for ac series tripping, hand-reset 2 T2 9 Three phase overcurrent protection B Terminals viewed from front A 6  A  Trip Ckt. Isolator  A  10 T2 T1 Trip Ckt. 2 3 4 5 C Trip coil 1 T2 5 6 4  When fitted 1 2 CAG 8 9 3 7 10 4 3 CDG 4 8 10 9    t   e    l   o    i    V 1   e   g   n   a   r    O 2   n   w   o   r    B 3 4 BN  V    y   e   r    G O 5 6 7 8 9 10 1 + Figure 7: Connection diagram for  CDG 11 relay. 2 3 GY BK BE Y PK   4 5 6 7 8 9 10 + Figure 8: Connection diagram for CDG 26 relay. 7 Dimensions and weights Relay CDG 11 Case 237 173 218 CDG 21 2D (vert) (double pole) 425 174 218 3D (vert) 527 174 218 3D (horiz) 238 458 218 CDG 21 CDG 31 1D Maximum overall dimensions Height Width Depth* mm mm mm * Add 7 mm. for maximum length of M5 terminal screws. Cases Relays are supplied in drawout cases designed for either flush or projection mounting. Case wrappers are manufactured from hot dipped galvanised steel with a black pvc outer coating/powder coating. Relays comply with 56 day humidity  requirements as specified in IEC 68, climatic category 20/50/56. Dimensioned drawings of case outlines, panel cut-outs and mounting details are available on request. Information required  with order 1. Relay type 2. Current setting range 3. Preferred or standard increments 4. Current transformer secondary rating 5. Characteristic (time setting at 10 times I S) 6. Burden (1VA or 3VA) 7. Trip circuit (series seal in, shunt reinforcing or ac) 8. Trip circuit current (series seal in) 9. Trip circuit voltage (shunt reinforcing) 10. Operation indicator inscription if required 11. Auxiliary contacts (hand or self reset) 12. Details of instantaneous unit (CAG) if required 13. Case mounting 8 9  ALSTOM Limited Pallavaram Works: 19/1, GST Road, Pallavaram, Chennai-600 043. India. Tel: 91-044-2368621 Fax: 91-044-2367276 Email: [email protected]. © 1998 ALSTOM Limited Our policy is one of continuous development. Accordingly the design of our products may change at any time. Whilst every effort is made to produce up to date literature, this brochure should only be regarded as a guide and is intended for information purposes only. Its contents do not constitute an offer for sale or advice on the application of any product referred to in it.  ALSTOM Limited cannot be held responsible for any reliance on any decision taken on its contents without specific advice. PR:015:0799:A  10 Printed in India.