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CTC185
SERVICE ADJUSTMENTS Return to Start
Service Mode Changing Paramenters
Most of the alignments for this chassis are software-driven; Once the proper Security Code has been etered, the CH
adjustments are made by modifying parameter values via the and CH buttons can be used to change the parameter
service menu. When parameter values are modified, the number.
corresponding T-chip (U2001) registers, tuner (U501)
Changing Values
registers and EEprom (U3102 and U8302) locations are
updated. Parameters are grouped as follows: The VOL + and VOL - buttons can be used to change the
value of the parameter selected.
Group 0 - Instrument/Chassis Parameters
Changing Groups
Group 1 - Tuner Parameters
To select a different parameter group, press CH or CH
to return to parameter "0" and enter the security code that
A complete list of the software chassis alignment corresponds to the desired group.
parameters is shown in Table 1.
Setup Service Line
The Menu button may be used to enable the vertical collapse
Entering the Service Mode setup line. The button functions as a toggle. The setup line has
1. Press and release the POWER button to turn the the following characteristics:
instrument on. -Video source is set to ground through the grounded input pin
2. Press and hold the MENU button. of the video matrix switch;
a. Press and release the POWER button. -Brightness is set to 10 IRE;
b. Press and release the VOL+ button. -Vertical is disabled.
3. Release the MENU button. When the setup line is toggled off, the characteristics modified
above will return to their prior settings.
The instrument will display the following menu: Note: Changing to another parameter, with Channel-Up/
Down, will toggle the Setup Service Line OFF.

Exiting The Service Mode
The service mode can be exited at any time by pressing the
PARAMETER
VALUE POWER button. No additional steps are required to write new
CONTROLLED
CONTROLLED data into the EEprom(s); new data is entered as parameter
BY CHAN UP/DN
BY VOL UP/DN values are changed.
High Voltage
GROUP High voltage on this chassis is NOT adjustable. To check
NUMBER 000 000000 000 high voltage connect a VTVM with high voltage probe to the
picture tube high voltage anode, negative lead to picture tube
ground strap (use 500 volt scale).
NOTE: The meter (VTVM with high voltage probe) used for
measuring high voltage must have a resistance of
The CH and CH buttons on the front panel (or the 1000 megohm or more and be accurate within 5% or
remote transmitter) are used to change the parameter (P) better.
number. The VOL + and VOL - buttons are used to change the Nominal high voltage for this chassis (at maximum beam
parameter value (V). current) is 23 kV (19 inch), 24 kV (20 inch) and 25.5 kV (27
inch) when measured with a VTVM (with high voltage probe)
and must not exceed 26.9kV (19 inch), 27.5kV (20 inch), and
NOTE: Attempting to change the parameter number (using 27 kV (27 inch) under any circumstances.
CH or CH ) at this point will cause the instrument
to exit the service mode. A valid security code must X-Radiation Protection Shutdown Check
be entered (using VOL + or VOL -) before selecting
an alignment parameter. NOTE: When service is required, especially in the
horizontal deflection, high voltage, or regulated B+
circuits the X-Radiation Protection circuit should be
Security Codes tested for proper operation as follows:
When the service mode is first turned on, the parameter will
be "0", which does not correspond to an alignment. This is the 1. Apply 120 volts AC using a variac (variable AC)
security code parameter, the purpose of which is to prevent transformer for accurate AC input voltage.
accidental entry into the parameter groups. The value for 2. Allow for instrument warm up and adjust user controls or
parameter "0" must be correctly set to access the two maximum brightness and contrast levels.
parameter groups as follows:
3. Locate the x-ray protect test stakes labeled XRP1 and
Group 0 - set value to 76 XRP2(J4901 located to the rear and center of the chassis).
Group 1 - set value to 77 4. Momentarily short stake XRP1 to stake XRP2. The
instrument must shutdown and then restart.
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Page 3-1
CTC185
SERVICE ADJUSTMENTS (Continued) Return to Start

SERVICE MENU CHART


NOTE: When in the Service Menu Mode, channel up/dn will change the parameter # and volume +/- will change the value range.
To perform a channel change, while in the service menu mode, use the digit keys on the remote transmitter to direct enter
a channel number . To access channels 100 thru 125, press and hold the channel 1 button on the remote control until the
number 1, and two dashes are displayed on the screen, then press the second two digits.




Parameter # Parameter Name Value Range Comment:
Chan to Vol to
Change adjust
0 00 Pass No. for Serv. adjust Must set to 76 May not advance until value set
Service Adjustment Parameters
0 01 Horiz. Phase 00-15
0 02 Vertical DC 00-63
0 03 Vertical S Correction 00-15
0 04 Vertical size 00-127
0 05 Red Bias 00-127 Press Menu button for setup line
0 06 Green Bias 00-127 Press Menu button for setup line
0 07 Blue Bias 00-127 Press Menu button for setup line
0 08 Red Drive 00-63
0 09 Green Drive 00-63
0 10 Blue Drive 00-63
0 11 Sub-Brightness 00-127
0 12 RF AGC 00-63
0 13 FM Level 00-31
0 14 VCO Tuning 00-127
0 15 APC Detector Adjust 00-63 Defeat IF AGC
0 16 Tint Preset 00-127
0 17 Color Preset 00-127
0 18 Video Level 00-07
0 19 Vertical Linearity 00-15
0 20 Vertical Countdown Mode 00-03


Table 1 - Chassis Alignment Parameters




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CTC185
SERVICE ADJUSTMENTS (Continued) Return to Start
Test Equipment Required 4. Measure the 1kHz envelope (not the carrier waveform)
Digital Voltmeter as shown in Fig 1.
Dual Trace Oscilloscope 5. Adjust the FM Level value range to the step which gives
MTS Signal Generator (B&K 2009 or equivalent) the closest reading to 333mVp-p indication of the 1KHz
component.
NTSC Signal Generator (B&K 1249 or equivalent)
DC Power Supply-Well regulated, variable DC bias supply
TAG001 Service Generator (stock # 215568).
NOTE: All alignment adjustments, are bus controlled. They
are accessable only through entry of the correct code.
See the parameter # and value range adjustment 333mVp-p
chart in this service data. The following alignments
must be performed in the order given.

APC Offset
Test Point: U1001 pin 12 (AFT out) Main PCB
Adjust: Parameter 15 Fig. 1 - FM Level Alignment

1. Enter parameter # 15 (see chart). RF AGC
2. Connect a voltmeter to U1001 pin 12 (AFT out). Test Point: C2306+ (RF AGC) Main PCB
3. Short U1001 pin 11 (IF AGC) to ground. Adjust: Parameter #6 Range: 0 - 63
4. With no signal applied, adjust the APC Offset value range
for 3.8VDC. The RF AGC has been preset at the time of manufacture for
5. Remove the short from the IF AGC. optimum operation over a wide range of RF signal input
conditions. Readjustment should not be required unless the
tuner has been repaired, IC 1001 has been replaced, IC3101
PLL Tuning (IF VCO Free Run) has been replaced, IC3201 has been replaced, or unusual
Test Point: U1001 pin 12 (AFT out) Main PCB signal conditions exist such as:
Adjust: Parameter 14 a. Cable TVadjacent channel interference.
b. Picture bending and/or channel 6 color beats which are
1. Enter parameter # 14 (see chart). usually due to excessive RF signal input. This occurs
2. Tune the instrument to receive a color bar signal. when the receiver location is too close to the transmitting
tower. It may also occur when the receiver is connected
3. Connect a DC voltmeter to U1001 pin 12 (AFT out). to an antenna distribution system where the RF signal has
4. Adjust the PLL Tuning value range for 3.8VDC. been amplified. The signal should be attenuated at the
antenna input to a more satisfactory level.
Video Level c. Picture Noise caused by broadcast noise or weak
signal. If the broadcast is clean and the received signal
Test Point: P 2301 pin 3 (Q2301 - E) Main PCB
is at least 1 mV, the picture will be noise free in any area.
Adjust: Parameter 18

1. Enter parameter # 18 (see chart). NOTE: Adjustment of the RF AGC parameters may not have
any visible effect except under unusual conditions.
2. Tune the instrument to receive a color bar signal. Ajusting the RF AGC to one extreme of its
3. Connect a scope probe (500mV, 20usec/div.) to the parameter limits will usually provide a relatively
emitter of Q2301. poor signal-to-noise ratio, while adustment to the
4. Adjust value range to produce 1.0 volt p-p (sync to white) other extreme of its parameter limits will cause a
degradation of overload conditions such as channel
6 color beats or Cable TV adjacent channel
FM Level (Wideband Audio) interference. If the RF AGC parameter setting is
Test Point: TP1201 (WBA out) Main PCB adjusted, check all local channels for proper
Adjust: Parameter 13 operation. Use weakest local signal to adjust RF
AGC parameter setting.
1. Enter parameter # 13 (see chart).
2. Tune the instrument to receive 1kHz, L+R stereo audio 1. Disconnect RF source from the antenna connector.
from the MTS generator (PILOT off, SAP off). 2. Connect the sweep/marker generator to the IF input
3. Connect a scope probe (200mV, 200usec/div.) to (SF2301 pin 1); use SF2301 pin 2 as ground reference.
TP1202 (WBA output). Set the generator for a 45.75MHz marker, 450mVrms.



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Page 3-3
CTC185
SERVICE ADJUSTMENTS (Continued) Return to Start
NOTE: Signal level must be set accurately. Measure the 5. Connect a scope probe (50V/10usec/div.) to the red kine
input signal level at SF2301 pin 1 with the signal drive output (TP5003).
connected. Signal level must be set to within `1%. 6. Adjust chassis parameter 11, Sub-Brightness, for a 30
volt blanking reserve.
NOTE: Signal leakage around the SAW filter will be a
7. Return the RGB drive and RGB bias parameters to their
problem unless proper precautions are taken. The
original values.
leads used to connect the signal source to SF2301
must be shielded to within 1/2" of the circuit board.

3. Connect the DC voltmeter across C2306.
4. Adjust RF AGC (parameter #12) to the step which gives
a reading closest to +3.8VDC. 30V




Tint/Color Preset (Fig. 2)
Test Point: TP5005 Kine PCB
Adjust: Parameter 16 (Tint Preset)
Parameter 17 (Color Preset) Focus Adjust
Adjust focus control to provide best overall picture focus.
1. Tune the instrument to receive a color bar signal.
2. Turn the Autocolor feature off. Fig. 3 - Sub-Brightness Adjustment
3. Connect a scope probe (50V/10usec/div.) to the blue kine
drive output (TP5005).
Horizontal Phase
4. Adjust chassis parameter 16, Tint Preset, to set the
amplitude of the cyan bar equal to the magenta bar. Test Point: Observe Display
Adjust: Parameter 1
5. Adjust chassis parameter 17, Color Preset, to set the
amplitude of the blue bar equal to the white bar.
1. Enter parameter # 01 (see chart).
6. Repeat steps 4 and 5 until both conditions are met.
2. Adjust value range to center picture left to right.
7. If both conditions can not be met, set both the Tint Preset
and Color Preset chassis parameters to value = 64.
Vertical DC Adjust
Test Point: Observe Display
Adjust: Parameter 2

1. Enter parameter # 02 (see chart).
2. Adjust value range to center picture top to bottom.

Vertical S Correction
Adjust: Parameter 3
Value: 6,12
White Cyan Magenta Blue
1. Enter parameter # 03 (see chart).
Fig. 2 - Tint/Color Preset 2. Set the value range to 6 for 19/20" tubes and 12 for the 25
and 27" tubes.

Vertical Size
Sub-Brightness (Fig. 3)
Test Point: Observe Display
Test Point: TP5003 Kine PCB Adjust: Parameter 4
Adjust: Parameter 11 (Sub-Brightness)
1. Enter parameter # 04 (see chart).
1. Tune the instrument to receive a color bar signal. 2. Adjust value range to provide approximately 1/4 inch
2. Reset the Picture Controls (use the customer control overscan at top and bottom of screen.
menu).
3. Write down the parameter values for the RGB drive and
RGB bias adjustments.
4. Set the RGB Drive parameters to value = 32, RGB Bias
parameters to value = 5 and the Sub-Brightness
parameter to value = 63.
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Page 3-4
CTC185
SERVICE ADJUSTMENTS (Continued) Return to Start
Color Temperature 4. Adjust (knife) the Band 2 Oscillator coil (L7304) for
Test Point: Q5001-C (Red Drive) Kine PCB 23.7VDC (`0.3VDC).
Q5002-C (Green Drive) Kine PCB 5. Connect the DC voltmeter to U1001 pin 11 (IF AGC).
Q5003-C (Blue Drive) Kine PCB 6. Select parameter #31 and record its present value, then
Adjust: Parameter 5 (Red Bias) adjust parameter #31 through its range (0 - 62). If a "null"
Parameter 6 (Green Bias) in the AGC voltage appears, the Band 2 Single-Tuned
Parameter 7 (Blue Bias) coil (L7110) alignment is acceptable; return parameter
Parameter 8 (Red Drive) #31 to the recorded value and proceed to the next step. If
Parameter 9 (Green Drive) a "null" does not appear, adjust (knife) the Band 2 Single-
Parameter 10 (Blue Drive) Tuned coil (L7304) and repeat this step.
Screen Control
7. Select parameter #32 and record its present value, then
adjust parameter #32 through its range (0 - 62). If a "null"
1. Preset customer Video controls to mid-range. in the AGC voltage appears, the Band 2 Secondary coil
2. Disconnect all signal sources. (L7113) alignment is acceptable; return parameter #32 to
3. Preset red, green and blue drive parameter values to the recorded value and proceed to the next step. If a
mid-range (approximate setting of 32). "null" does not appear, adjust (knife) the Band 2
4. Preset red, green and blue bias parameters values to 5. Secondary coil (L7113) and repeat this step.
5. Press the Menu button for setup line. Adjust the screen 8. Select parameter #33 and record its present value, then
control to just produce a centerline (red, green or blue). adjust parameter #33 through its range (0 - 62). If a "null"
in the AGC voltage appears, the Band 2 Primary coil
NOTE: The Menu button may be used to enable the vertical (L7111) alignment is acceptable; return parameter #33 to
collapse setup line. The button functions to toggle the the recorded value and proceed to the next step. If a
line On/Off. Changing to another parameter will turn the "null" does not appear, adjust (knife) the Band 2 Primary
setup line OFF. coil (L7111) and repeat this step.
6. Enter parameter #s for the remaining two bias control
colors and adjust to produce a white setup line.
(Reminder: Changing to another parameter will turn the Band 1 Manual Alignment
setup line OFF. Press the Menu button for a setup line.) Test Points: U7401 pin 5 (Loop Fil2) Main PCB
7. Set brightness and contrast controls to maximum. U1001 PIN 11 (IF AGC) Main PCB
Adjust: L7115(Band 1 Sgl) Main PCB
8. Tune the instrument to receive a grey scale signal. L7112 (Band 1 Pri) Main PCB
9. Enter access codes for the color drive controls (8 for red, L7114 (Band 1 Sec) Main PCB
9 for green and 10 for blue) in random sequence. Adjust L7305 (Band 1 Osc) Main PCB
their respective parameters to obtain a 6500 degree
kelvin color temperature (warm white) raster.
1. Connect the TAG001 Service Generator as described in
10. Check the low light to high light gray scale tracking the TAG001 user's manual.
(black and white picture). Should any color other than
2. Connect the DC voltmeter to U7401 pin 5 (Loop Fil2).
gray or white be dominant in low light to high light areas
the color temperature settings have not been properly 3. Set the service generator for Channel 17 output. Tune the
performed. Repeat the procedure if necessary. instrument to receive Channel 17.
NOTE: Color bias adjustments affect the low light (dark) 4. Adjust (knife) the Band 1 Oscillator coil (L7305) for
areas while color drive adjustments affect the high 20.0VDC (`0.3VDC).
light (white) areas. 5. Reconnect the DC voltmeter to U1001 pin 11 (IF AGC).
6. Select parameter #13 and record its present value, then
Tuner Adjustments: adjust parameter #13 through its range (0 - 62). If a "null"
Manual Alignment begins with band 2 coils then band 1 coils in the AGC voltage appears, the Band 1 Single-Tuned
and finishes with band 3 coils. coil (L7115) alignment is acceptable; return parameter
Band 2 Manual Alignment #13 to the recorded value and proceed to the next step. If
a "null" does not appear, adjust (knife) the Band 1 Single-
Test Points: U7401 pin 5 (Loop Fil2) Main PCB Tuned coil (L7115) and repeat this step.
U1001 PIN 11 (IF AGC) Main PCB
Adjust: L7304 (Band 2 Osc) Main PCB 7. Select parameter #14 and record its present value, then
L7110 (Band 2 Sgl) Main PCB adjust parameter #14 through its range (0 - 62). If a "null"
L7111 (Band 2 Pri) Main PCB in the AGC voltage appears, the Band 1 Secondary coil
L7113 (Band 2 Sec) Main PCB (L7114) alignment is acceptable; return parameter #14 to
the recorded value and proceed to the next step. If a
"null" does not appear, adjust (knife) the Band 1
1. Connect the TAG001 Service Generator as described in Secondary coil (L7114) and repeat this step.
the TAG001 user's manual.
8. Select parameter #15 and record its present value, then
2. Connect the DC voltmeter to U7401 pin 5 (Loop Fil2). adjust parameter #15 through its range (0 - 62). If a "null"
3. Set the service generator for Channel 50 output. Tune the in the AGC voltage appears, the Band 1 Primary coil
instrument to receive Channel 50. (L7112) alignment is acceptable; return parameter #15 to
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Page 3-5
CTC185
SERVICE ADJUSTMENTS (Continued) Return to Start
the recorded value and proceed to the next step. If a minimum DC voltage.
"null" does not appear, adjust (knife) the Band 1 Primary 7. Repeat steps 4 through 6. The adjustments must be
coil (L7112) and repeat this step. repeated to assure correct alignment.
8. Change the service generator and the instrument to
Band 3 Manual Alignment Channel 6. Adjust CH6 Sec/Pri/Sgl (parameter #'s 4, 5
Test Points: U7401 pin 5 (Loop Fil2) Main PCB and 6) for minimum DC voltage, then repeat the
U1001 PIN 11 (IF AGC) Main PCB adjustment.
Adjust: L7102 (Band 3 Sgl) Main PCB 9. Change the service generator and the instrument to
L7104 (Band 3 Pri) Main PCB Channel 98. Adjust CH98 Sec/Pri/Sgl (parameter #'s 7, 8
L7105 (Band 3 Sec) Main PCB and 9) for minimum DC voltage, then repeat the
L7303 (Band 3 Osc) Main PCB adjustment.
10. Change the service generator and the instrument to
1. Connect the TAG001 Service Generator as described in Channel 15. Adjust CH15 Sec/Pri/Sgl (parameter #'s 10,
the TAG001 user's manual. 11 and 12) for minimum DC voltage, then repeat the
2. Connect the DC voltmeter to U7401 pin 5 (Loop Fil2). adjustment.
3. Set the service generator for Channel 125 output. Tune 11. Change the service generator and the instrument to
the instrument to receive Channel 125. Channel 17. Adjust CH17 Sec/Pri/Sgl (parameter #'s 13,
14 and 15) for minimum DC voltage, then repeat the
4. Adjust (knife) the Band 3 Oscillator coil (L7303) for adjustment.
23.2VDC (`0.3VDC).
12. Change the service generator and the instrument to
5. Reconnect the DC voltmeter to U1001 pin 11 (IF AGC). Channel 18. Adjust CH18 Sec/Pri/Sgl (parameter #'s 16,
6. Select parameter #55 and record its present value, then 17 and 18) for minimum DC voltage, then repeat the
adjust parameter #55 through its range (0 - 62). If a "null" adjustment.
in the AGC voltage appears, the Band 3 Single-Tuned 13. Change the service generator and the instrument to
coil (L7102) alignment is acceptable; return parameter Channel 9. Adjust CH9 Sec/Pri/Sgl (parameter #'s 19, 20
#55 to the recorded value and proceed to the next step. If and 21) for minimum DC voltage, then repeat the
a "null" does not appear, adjust (knife) the Band 3 Single- adjustment.
Tuned coil (L7102) and repeat this step.
14. Change the service generator and the instrument to
7. Select parameter #56 and record its present value, then Channel 29. Adjust CH29 Sec/Pri/Sgl (parameter #'s 22,
adjust parameter #56 through its range (0 - 62). If a "null" 23 and 24) for minimum DC voltage, then repeat the
in the AGC voltage appears, the Band 3 Secondary coil adjustment.
(L7105) alignment is acceptable; return parameter #56 to
the recorded value and proceed to the next step. If a 15. Change the service generator and the instrument to
"null" does not appear, adjust (knife) the Band 3 Channel 39. Adjust CH39 Sec/Pri/Sgl (parameter #'s 25,
Secondary coil (L7105) and repeat this step. 26 and 27) for minimum DC voltage, then repeat the
adjustment.
8. Select parameter #57 and record its present value, then
adjust parameter #57 through its range (0 - 62). If a "null" 16.Change the service generator and the instrument to
in the AGC voltage appears, the Band 3 Primary coil Channel 46. Adjust CH46 Sec/Pri/Sgl (parameter #'s 28,
(L7104) alignment is acceptable; return parameter #57 to 29 and 30) for minimum DC voltage, then repeat the
the recorded value and proceed to the next step. If a adjustment.
"null" does not appear, adjust (knife) the Band 3 Primary 17. Change the service generator and the instrument to
coil (L7104) and repeat this step. Channel 50. Adjust CH50 Sec/Pri/Sgl (parameter #'s 31,
32 and 33) for minimum DC voltage, then repeat the
adjustment.
Electronic RF Alignment
18. Change the service generator and the instrument to
Test Point: U1001 PIN 11 (IF AGC) Main PCB Channel 51. Adjust CH51 Sec/Pri/Sgl (parameter #'s 34,
Adjust: Parameter #'s 1 thru 54 Range: 0 - 62 35 and 36) for minimum DC voltage, then repeat the
adjustment.
1. Connect the TAG001 Service Generator as described in 19. Change the service generator and the instrument to
the TAG001 user's manual. Channel 61. Adjust CH61 Sec/Pri/Sgl (parameter #'s 37,
2. Connect the DC voltmeter to U1001 pin 11 (IF AGC). 38 and 39) for minimum DC voltage, then repeat the
3. Set the service generator for Channel 2 output. Tune the adjustment.
instrument to receive Channel 2. 20. Change the service generator and the instrument to
4. Adjust Channel 2 Secondary (parameter #1) for Channel 75. Adjust CH75 Sec/Pri/Sgl (parameter #'s 40,
minimum DC voltage. 41 and 42) for minimum DC voltage, then repeat the
adjustment.
5. Adjust Channel 2 Primary (parameter #2) for minimum
DC voltage. 21. Change the service generator and the instrument to
Channel 101. Adjust CH101 Sec/Pri/Sgl (parameter #'s
6. Adjust Channel 2 Single-Tuned (parameter #3) for 43, 44 and 45) for minimum DC voltage, then repeat the
adjustment.

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Page 3-6
CTC185
SERVICE ADJUSTMENTS (Continued) Return to Start

22. Change the service generator and the instrument to 24. Change the service generator and the instrument to
Channel 114. Adjust CH114 Sec/Pri/Sgl (parameter #'s Channel 125. Adjust CH125 Sec/Pri/Sgl (parameter #'s
46, 47 and 48) for minimum DC voltage, then repeat the 52, 53 and 54) for minimum DC voltage, then repeat the
adjustment. adjustment.
23. Change the service generator and the instrument to
Channel 122. Adjust CH122 Sec/Pri/Sgl (parameter #'s
49, 50 and 51) for minimum DC voltage, then repeat the
adjustment.




Electronic Tuner Alignment Parameters


Parameter # Parameter Name Value Range Parameter # Parameter Name Value Range
Chan to Volume to Chan to Volume to
Change adjust Change adjust
1 01 Ch. 2 secondary 00-62 1 28 Ch. 46 secondary 00-62
1 02 Ch. 2 primary 00-62 1 29 Ch. 46 primary 00-62
1 03 Ch. 2 single 00-62 1 30 Ch. 46 single 00-62
1 04 Ch. 6 secondary 00-62 1 31 Ch. 50 secondary 00-62
1 05 Ch. 6 primary 00-62 1 32 Ch. 50 primary 00 62
1 06 Ch. 6 single 00 62 1 33 Ch. 50 single 00-62
1 07 Ch. 98 secondary 00-62 1 34 Ch. 51 secondary 00-62
1 08 Ch. 98 primary 00-62 1 35 Ch. 51 primary 00-62
1 09 Ch. 98 single 00-62 1 36 Ch. 51 single 00-62
1 10 Ch. 15 secondary 00-62 1 37 Ch. 61 secondary 00-62
1 11 Ch. 15 primary 00-62 1 38 Ch. 61 primary 00-62
1 12 Ch. 15 single 00 62 1 39 Ch. 61 single 00 62
1 13 Ch. 17 secondary 00-62 1 40 Ch. 75 secondary 00-62
1 14 Ch. 17 primary 00-62 1 41 Ch. 75primary 00-62
1 15 Ch. 17 single 00-62 1 42 Ch. 75 single 00-62
1 16 Ch. 18 secondary 00-62 1 43 Ch. 101 secondary 00-62
1 17 Ch. 18 primary 00-62 1 44 Ch. 101 primary 00-62
1 18 Ch. 18 single 00-62 1 45 Ch. 101 single 00-62
1 19 Ch. 9 secondary 00-62 1 46 Ch. 114 secondary 00-62
1 20 Ch. 9 primary 00-62 1 47 Ch. 114 primary 00-62
1 21 Ch. 9 single 00-62 1 48 Ch. 114 single 00-62
1 22 Ch. 29 secondary 00-62 1 49 Ch. 122 secondary 00-62
1 23 Ch. 29 primary 00-62 1 50 Ch. 122 primary 00-62
1 24 Ch. 29 single 00-62 1 51 Ch. 122 single 00-62
1 25 Ch. 39 secondary 00-62 1 52 Ch. 125 secondary 00-62
1 26 Ch. 39 primary 00-62 1 53 Ch. 125 primary 00 62
1 27 Ch. 39 single 00-62 1 54 Ch. 125 single 00-62




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