Specifications
Peripherals
8-6 ©2002 Bally Gaming and Systems
CC-62
Power Requirements: Voltage Range, 11.5 to 12.5 VDC.
Designed for coin diameters of .700" (17.8mm) to 1.575
(40mm). Wide Body model recommended for coin di-
ameters up to 1.95" (49.5mm).
Wiring Instructions: The CC-62 printed circuit board re-
quires a 7-pin AMP right angle locking connector inter-
face.
Operating Voltage: The neutral or ground (GND) of the
voltage source should be wired directly to pin #1 of the
printed circuit board.
The hot or positive 12-Volt DC of the voltage source is
wired directly to pin #6 of the printed circuit board. These
connections now provide the operating voltage to the
comparitor.
Two Separate Outputs: When the sensing coils sense
a good coin, a pulse is sent out to the host machine.
Following this, the accept gate opens, and as the coin
passes the LED optics a credit pulse is also sent out to
the host machine. Together these two pulses provide
optimum security against cheating. The host machine
can be configured to recognize a valid coin only when
both outputs have been detected.
The LED optics have been positioned such that coins
falling edge-to-edge are guaranteed to be accepted
without stealing.
Inhibit Feature: The CC-62 has an inhibit feature built-in
to its electronics. The unique feature about the CC-62
CC-62
Coin Acceptors (cont.)
inhibit is its ability to electronically inhibit the validator
without removing power from it, thereby eliminating any
power-up time delay. The inhibit condition is accom-
plished by disabling only the accept coil.
The inhibit line is wired to pin #7 of the printed circuit board.
Coin Sense Output Feature: The CC-62 sends a coin sense
output pulse when the sensing coils detect a good coin.
This pulse is sent on pin #2 of the printed circuit board.
LED Credit Output Feature: The CC-62 sends a credit
pulse from the optics when a good coin has passed.
This pulse is sent on pin #4 of the printed circuit board.
Tilt/Error Signal Feature: Another security feature of the
CC-62 is its ability to protect against stringing. The op-
tics are positioned in an A-Over-B pattern. This means
that a coin must first block then uncover both the top
and the bottom optic before a credit pulse is issued. If
the bottom optic is blocked before the top, the CC-62
issues a tilt pulse on the tilt/error output line. The error
signal, which is on the same output line, is used in the
event of a failed or blocked optic. In the event an optic
is blocked for a period of more than 1.5 seconds, the
tilt/error output line goes low and will remain low for as
long as the failed or blocked optic remains.
The built-in tilt/error detection line can be utilized by wir-
ing to pin #3.
Denomination Adjustment: As with any comparitor product
it is essential that the proper dampener lever and weight
assembly are used for the size coin being validated. For
the CC-62 there is an additional adjustment step that is
critical to proper operation. This adjustment is to the
adjustable guide rail. The adjustable guide rail ensures
that a good coin, once accepted, adequately passes the
optics as it exits the validator body.
To perform this adjustment, loosen the rail screw on the
adjustable guide fail, as well as the elastic nut on the
rail support bracket. Position the bottom of rail so that
you have the full diameter of the coin’s width, plus
1
/
32
"
over. This guarantees proper optic blockage for the size
coin being validated. After adjusting rail, make sure to
fully tighten the rail screw to hold the adjustment made.
Proceed by aligning the tip of the rail support bracket to
the end of the rail, then tighten the elastic nut in place.
1. Ground
2. Coin Sense
3. Error
4. Credit
5. Key
6. 12 Volt
7. Inhibit
1
2
3
4
5
6
7
NOTE: An adjustment gage tool may be
purchased from Coin Mechanisms
directly by calling the Parts Sales
department at (630) 924-7070 and
requesting part number #06660003.