INSTALLATION
Fig. 2 illustrates a typical installation of a ACB1 in an IR repeater system. A variety of Sonance
IR Receivers and a keypad are shown. When configuring a system, please keep the following
items in mind:
1. More IR receivers may be wired in parallel, in the same manner as shown, up to a
maximum of twelve. More than twelve is not recommended because IR noise picked up by
the many IR receivers may cause erratic operation and reduce remote control range.
2. Be sure to connect the +12V, Output and GND of each IR receiver and keypad to the
respective +12VDC, INPUT and GND of the connecting block as shown.
3. Power Supply Requirements.You may combine many Sonance IR receivers, controllers
and emitters in a system. Having sufficient power supply voltage and current available is
critical for proper operation. Be sure to take the following factors into consideration:
a. The maximum current for proper operation from a PS1 Power Supply is 120 mA (milliamps).
b. The maximum current from a PS2 Power Supply is 1000 mA.
c. Most IR receivers draw 2 mA without signal and 10 mA with signal (check specs. on
actual model).
d. Each emitter draws 5 mA in low power mode and 15 mA in high power mode.
e. When using combinations of these devices, add up their currents, then choose the
power supply according to the maximum current capabilities as noted above!
f. To avoid current "hogging", never connect regulated supplies, such as the PS1 and PS2,
in parallel!
The Model ACB1 is an Amplified Connecting Block that permits up to 10 single or 10 dual
emitters (or any combination thereof) to be driven directly at high or low power levels. The ACB1
interfaces all Sonance IR Receivers to the emitters along with a power supply in an infrared
repeater system. A floating terminal is provided for "STATUS" line connections.
INSTALLATION INSTRUCTIONS
ACB1
ONE ZONE AMPLIFIED CONNECTING BLOCK
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SPECIFICATIONS
• Inputs: 1 - Screw type 4-terminal plug-in.
1 - IR Receiver "IR RCVR" 3.5mm mini
stereo jack.
• Outputs: 10 - Emitter ports (3.5mm mini
mono jacks) parallel driven. 1 - High Level
IR signal output port (3.5mm mini mono
jack).
• Use of included jumpers connect either a
100 or a 470-Ohm resistor in series with
each emitter output for high or low power
operation.
• E1, E2, VE1 & VE2 Mini Emitters may be used
in any combination.
• Power requirements: 12 volts DC. Uses PS1
or PS2 Power Supplies.
• 2.1 mm coaxial power jack.
• Dimensions: 5 3/8" W x 3" D x 7/8" H.
Fig. 1: ACB1 Amplified Connecting Block
Mounted in 3” SNAPTRACK
®
(SNAPTRACK is a registered trademark of AUGAT)
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CAUTION: Do not use unregulated 12V power supply adapters from other manufacturers.
These may deliver excessive voltage to the IR receivers and cause them to “latch-up”. When
this occurs, the “talk-back” LEDs and VE1 emitters (if used) will stay on continuously!
4. For clarity, connections in this illustration are
shown going to a 3-conductor bus in a "daisy
chain" fashion. In an actual installation, however,
it is recommended that 4-conductor "home-runs"
be pulled from each room to the ACB1 Connecting
Block in the main room. This maintains higher
power supply voltage to each IR receiver and
keypad for best operation (plus a spare lead).
5. The "IR RCVR" jack on the ACB1 allows the
SMR1P and the CR1 (with a 3.5 mm stereo mini
plug) to be plugged directly into the ACB1.You
can do this when the ACB1 Connecting Block is
within reach of the IR receiver's cable -- such as when installing the SMR1P in a cabinet
where the controlled equipment is behind closed doors.
CAUTION: Plug only Sonance IR Receivers equipped with a stereo mini plug into the
IR RCVR jack. Do not plug in emitters or other devices. To do so will destroy emitters
and damage power supplies!
Emitter Output Ports - High and Low Power Settings
The emitter ports are driven in parallel with a choice of either a 100 Ohm or a 470 Ohm
resistor connected in series with each port. The 100 Ohm choice delivers high power output
and the 470 Ohm setting is lower power. The high power setting is achieved by plugging a
small jumper (10 are supplied) onto the pair of pins adjacent to the desired emitter port, as
shown in Fig. 3 below. The low power option is with the jumper removed.
NOTE: The ACB1’s are shipped from the factory with the jumpers removed
(low power position).
Consider the following factors when choosing high or low power modes:
1. In the majority of cases, when you mount an emitter on the IR sensor window of the controlled device, you would use the low power mode (jumpers removed).
This prevents overload of high gain sensor circuits and allows proper operation.
2. The high power mode may be used in installations where you mount the emitters on an
+12VDC
GND
GND
SIGNAL
EMITTERS
PWR
IR
RCVR
CR1 HUB
CONNECTING BLOCK
Fig. 2: A Typical ACB1 System
SONANCE • 212 Avenida Fabricante • San Clemente, CA 92672
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adjacent cabinet wall or door a short distance from the unit's sensor. Another instance is
when you place an emitter inside the device, but cannot place it close to the IR sensor. In
such cases, you may need the extra power of the high power mode to blast through
printed circuit boards or around chassis structures. In addition, when using the lower
output VE1 and VE2 Blink IR's, you may need the high power mode for some devices that
have less sensitive IR sensors.
3. The resistors also provide current sharing to each emitter and allow the use of dual emitters in combination with single emitters. You may, therefore, connect any combination of
emitter models E1, VE1, E2 & VE2 in the same system, as illustrated in Fig. 2, to drive the
desired number of devices.
When using less than 10 of the emitter ports, you may plug into any of them without regard
to order.
IMPORTANT NOTE: When using lengths greater than250 ft.) of inter-room shielded cable, it may be
necessary to connect a 470 Ohm 1/8 watt resistor between input terminals of Sonance connecting
blocks (CB1, CB2Z, ACB1), zone controllers, etc.
MOUNTING: The ACB1 can be conveniently mounted to a wall or shelf by using screws or
mounted into a 3” SNAPTRACK. (SNAPTRACK is a registered trademark of AUGAT)
©2002 All rights reserved. OptiLinQ is a trademark of Sonance
33-1285 3.02
Fig. 4: 470 Ohm Capacitance
Discharge Resistor
Fig. 3: Emitter Power - Jumper Placement
Emitter Ports
Low Power Mode - Jumper Removed
High Power Mode - Jumper Installed
Carefully insert jumper on vertical
pair of pins when higher power is
needed. See note 2.
Shielded Cable
to remote room
Ground Shield as shown
470 Ohm resistor
Use 470 Ohm resistor
+V
GND
GND
SIG
+V
GND
GND
SIG
ZONE 1
INPUT
ZONE 2
on Zone 2 also, if needed
CB2Z Input
Terminals
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