Page 1
Types of A.F.T.C.Types of A.F.T.C.
TI-21(ABB)
FTGS(SIEMENS)
ALSTOM(DC-CODED)
UM-7SEF-FRANCE
• 1699 Hz• 2296 Hz• 1996 Hz• 2593 Hz
• 1549 Hz• 2146 Hz• 1848 Hz• 2445 Hz
8-TYPESFTGS-46• 4.75 KHz• 5.25 KHz• 5.75KHz• 6.25 KHz
FTGS-917• 9.5KHz• 10.5 KHz• 11.5 KHz• 12.5 KHz• 13.5 KHz• 14.5 KHz• 15.5KHz• 16.5 KHz
6-TYPES• 2100 Hz• 2500 Hz• 2900 Hz• 3300 Hz• 3700 Hz• 4100 Hz
4-TYPES• 1700 Hz• 2300 Hz
• 2000 Hz• 2600 Hz
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12-TYPES
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ADVANTAGES OF AFTCADVANTAGES OF AFTC
• Joint less Track Circuits except in point zone.
• Immune to AC/DC Traction interference.• Suitable for Non-RE Section.• More Length.• Less Depends on RB Integrity (presence)
of both rails are ensured in the circuit.• Both Rails are available for Traction
Return Current.• Less maintenance ,less staff more reliable.• Sensitive TR with high % of release are
not required .
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Page 3
ABB (T1 TYPE) A.F.T.C.
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Page 4
TI-21 A.F.T.C.TI-21 Can be arranged
• End Feed arrangement(Continuous)• (Center Feed Arrangement Continu
)ous
• A.F.T.C. Ending with other type Track Circuit.
• A.F.T.C. Ending with Non-Track Circuited Zone.
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Page 5
TECHNICAL SPECIFICATION OF TI-21
+ / - 5 mm MAX about centre of tunned area.
6. TRACK CIRCUIT EXTRIMITY
20 Mt. +/- 0. 5 Mt.10. SEPARATION JOINT (TUNED AREA)LENGTH
1 Milli ohm maximum per connection.
9. TRACK CONNECTION RESSISTANCE
Standard Nutral Relay 50 V DC.8. RELAY
0.8 -- 1. 8 V 4.5 -- 7.5 V
7. TRACK FEED 1. LOW POWER MODEVOLTAGES 2. HIGH POWER MODE
1500 KHz TO 2600 KHz. Approx.11. FREQUENCY RANGE
-30 O TO + 70O5. TEMPARATURE RANGE
0.15 MAXIMUM0.5 MAXIMUM
4. TARIN SHUNT 1. INSIDE TUNNED AREA2. OUTSIDE TUNNED AREA
0.5 mho/km max.3.BALLAST CONDUCTANCE
50 TO 250 M200 TO 1100M (960 M)600 TO 2000 M (1800M)
2.LENGTH 1. LOW POWER MODE2. HEIGH POWER MODE .(END FEED)3. HEIGH POWER MODE (CENTER FEED)
11OV,50 KHz OR 24 V DC1.POWER SUPPLY
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Page 6
COPONENTS FOR END FEED A.F.T.C.
• POWER SUPPLY UNIT (PSU) 2 Nos.
• TRANSMITTER UNITS (Tx ) 1 Nos.
• RECEIVER UNITS ( Rx ) 1 Nos.
• TUNING UNITS (T U-Tx & TU- Rx ) 2 Nos.
• LINE RELAY (QN1) (50 V,1350 ) 1 Nos.
• CABLES 1) Tx ,Rx TO T.U. 2 Set.
2) T.U. TO TRACK 2 Set.
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Page 7
TU-B TU-A
Rx-B
PSU
Tx-A
TU-A TU-B
Rx-A
PSU
Tx-B
Tx - END Tx - ENDRx - END Rx - END
24 V DC24 V DC
110 V AC/50 KHz +/- 7%I/P Tapping (5-0-95-105-110)
O/P Volt. – 22.5 v to 30.5 V DCO/P Current – 4.4A(max)
Ripple Volt-3 V PIP
50/.25 Sq.mm Cu Cable 350 Mt. Max.
10V to 11V AC (A,C,E,G)15 V to 16 V AC (B,D,F,H)
Voltage On Rail
V -TXV –R X
0.8V-1.8V 4.5V – 7.5 VMODE Low Power Normal
0.5 – 0. 8 V 0.4 – 1.6 V
24 V DC 24 V DC
35 Sq mm Cu/its Eq.
50/.25 Sq.mm Cu Cable 30 Mt. Max.
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BLOCK DIGRAM OF TI-21 END FEED AFTC
Page 8
TU-B
Rx-B
PSU
TU-A TU-B
Rx-A
PSU
Tx-B
Tx - ENDRx - END Rx - END
24 V DC24 V DC
110 V AC
ETU
Tx-A
Tx - END
TU-A
Rx-A
PSUTRA TRA
Rx - END
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BLOCK DIGRAM OF TI-21 CENTER FEED AFTC
Page 9
AFTC END FEED WITH NO TRACK CIRCUIT ZONE
TU
TU
20 +/- 0.5 Mt.
< 1 Mt.
AFTC END FEED OTHER TYPE OF TRACK CIRCUIT ZONE
OTHER T/CKT.
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Page 10
MULTI-VIBRETOR
MODU-LATOR
O/PFILTER
OSCILATOR
1
2
3 4 5 6OUT-PUT AMPLIFIER
MATCHING TRANSFORMER
TOTU
F+17 F+17 F+17F-17 F-17
Modulation at 4.8 KHz
O/PAMP
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Transmitter ABB
Page 11
4a
FILTER
FILTER
FILTER
FILTER
AMPLIFIER
AMPLIFIER DEMODULATOR
DEMODULATOR
TIMEDELAY
RELAYDRIVE
SEQUENTIALAND GATE
INPUT TRANSFORMER
INPUTFROMTU
OUT PUT RELAY
1
2a 3a 5a
64b2b 3b 5b
7
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RECEIVER- ABB
Page 12
1H
1L
3H
3L
9H
9L
FROMETU /TTU
1
9
3
1
IP1
IP2
GAIN IP1 IP2 Loop-1 Loop-25 3L 9L 1H-9H 1L-3H7 3L 9L 1H-3H 1L-9H9 9L 9H
12 3H 9L 3L-3H13 1H 9L 1L-3H 3L-3H
• Gain Calculation• Step 1 :-IP2 to 9 L through 1 Register • Step 2:-9 L to 9H = +9 Gain• 9H to 1L Loop = 0 Gain• Step3 : - 1L to 1 H = +1Gain• 1 H to 3 H Loop = 0 Gain• Step 4:-3H to 3L = -3 Gain• Step 5 :-3L to IP1 = 0 Gain• Total Gain = (+9 )+ (+1)+(-3) = 7
Gain Setting In T1 Type AFTC
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Page 13
Seimen’s A.F.T.C.Seimen’s A.F.T.C.• 6 System Characteristics and Technical Data• Range of applications Station and open- line tracks, points and crossings• Joints Electrical separation joints with S. terminal and shunt bonds• Traction current return Two-rail• Interference Frequency-modulated transmission provides immunity to interference• Cable faults Protection by coded transmission and intercore short-circuit supervision• Component failures Safety measures dual-channel design of receive equipment parallel movement (synchronism) of trac circuit relays: error detection by divergent condition of the two relays• Shock-hazard voltages Electrical isolation between outdoor and indoor equipment• Rated operating frequencies • FTG S 46: 4.75 kHz, 5.25 kHz, 5.75 kHz, 6.25 kHz FTG S 917: 9.5 kHz, 10.5 kHz, 11.5 kHz, 12.5 kHz, 13.5 kHz, 14.5 kHz, 15.5 kHz, 16.5 kHz• Modulation Frequency modulation (shift keying)• Bit pattern for coding 15 different bit patterns• Transmission speed For the transmission of time-multiplex bit patterns: VD = max. 200 bit/s• Operating reliability MTBF: 5 years• Pick-up delay of track circuitt : approx. 0.6 s (in special cases 1.3 s)• relays• Drop-out delay of track circuit tdr: approx. 0.25 s (in special cases 0.17 s)• relays• Power supply Operating voltage:• U = 230 V AC +10 %/—15 %, 50Hz + 2%• System Description• VT 1 P 64• Siemens code no:• 43• FTG S Track Circuit• A25000-X22-Q41-O1-7629• of• without Data Transmission• (EZS)• 15-12-97• Notice no: K75/D62/V• 44• Copyright © Siemens AG 1997• All Ri• ghts Reserved• BFTGSENG.DOC
Page 14
Technical data-1
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Page 15
Technical data-2
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Page 16
FTGS STD CONFG.
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Page 17
FILTER
AMPLIFIER
TRANSMITTER RECEIVERRx 1.2
RECEIVERRx 1.1
RESPONCE LEVELSETTING FILTER
RECEIVERRx 2.2
RECEIVERRx 2.1
DE-MODULATOR
DE-MODULATOR
RELAY-2
RELAY-1
POWER SUPPLY+12 V;+5V DC
T.U. T.U.
CABLES
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BLOCK DIGRAM SEIMEN’S AFTC
Page 18
Maximum Effective Length Of Track Circuit.
Range Of Influence For RB = 1.5 OHM X K.M. RB = 1.5 OHM X K.M.
FTGS917
REMOTE FEEDING ZA ST 917 M 917 ST 917 M 917
4.5 KM <= 1.0 OHM 300 M 750 M 350 M 950 M
4.5 KM <= 0.5 OHM 350 M 850 M 400 M 1000 M
6.5 KM <= 0.5 OHM 300 M 700 M 330 M 850 MREMOTE FEEDING ZA ST 917 M 917 W/K
917ST 917 M 917
6.5 KM <= 0.5 OHM 600 M 1200 M 750 M 1500 M
FTGS 46
ZA = PERMEETED AXLE SHUNT ST=STANDARD LAYOUTRB = SPECIFIC BALLAST RESISTANCE M = CENTER – FED –LAYOUTW/K = POINTS & CROSSING LAYOUT.
Seimen’s A.F.T.C
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Page 19
TRACK VACANCY DETECTION
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Page 20
Modulation And Coding
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Page 21
AFTC EQUIPMENTAFTC EQUIPMENT
INDOOR EQUIPMENT
• CPU FRAMES
• TRANCMITTER CARD
• AMPLIFIER / FILTER CARD
• RECEIVER – I CARD
• RECEIVER – II CARD
• DEMODULATION CARD
• RELAY CARD
OUT DOOR EQUIPMENT
• TUNNING UNIT :-
Feed In (Tx) Feed Out (Rx)
• TRACK CONNECTIONS.
• OUTDOOR CABLE :-
(Star Quad Cable 9mm Dia)
• TRACK TO T.U. CONNECTIONS.
(25 Sq Mm Cu Lead Rope)
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Page 22
SEPARATION JOINTS
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Page 23
TRACK CONNECTIONS9M 9M
3.2M 3.2M
FTGS 46 6.7 M
1.75 MFTGS 917 FTGS 917
FTGS 46
S-BOND OF STEEL WIRE ROPE 16 mm DIA IN BET.
TWO AFTC’S
ALFA-BONDS OF GALVANISED STEEL WIRE
ROPE 16 mm DIA AT THE END OF THE AFTC’S
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Page 24
S-BOND ARRENGEMENT
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Page 25
Track side Connection box
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Page 26
Tx T.U.
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Page 27
Rx T.U.
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Page 28
Modulation Frame FTGS917
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Page 29
Modulation Frame FOR POINT T.C.
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Page 30
Modulation Frame FOR X- ING T.C.
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Page 31
Modulation Frame FTG S 46 T.C.
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Page 32
Modulation Frame FTG S 46 - M T.C.
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Page 33
Transmitter Board
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Page 34
Filter & Amplifier Board
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Page 35
Receiver - I Board
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Page 36
Demodulator Board
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Page 37
Receiver – II Board
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Page 38
A.F.T.C.
From:- PARDESHI SACHIN S. S.E./Sig/KYN
SSE/Sig(M)/KYNMumbai Div.
C.R.India
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