Ameritron RCS-10 Instruction Manual
Ameritron RCS-10
INTRODUCTION
The RCS-10 is a versatile antenna switch designed for 50-ohm systems. It handles high
power, and sealed relays offer excellent life and connection reliability. It requires only
three small isolated control wires, plus a ground return that can even be the coaxial cable
shield. The relay box can be mounted indoors or outdoors.
The RCS-10 Remote Antenna Switch selects one-of-eight “antenna” connectors or
“ports”, and connects those ports directly to a single common port for a feedline.
The RCS-10 will work well in nearly any system requiring switching of unbalanced or
coaxial lines, especially those requiring good quality 50-ohm RF switches. The RCS-10 is
a remote controlled switch using relay contacts. The control head can be conveniently
located and only requires use of small low-voltage low-current telephone-type fourconductor control cable. Any switch port can be used as either an input or output, so you
can select one-of-eight radios to one feedline or one-of-eight antennas to a radio.
The Main Advantages of the RCS-10 are wiring cost, appearance, and convenience.
The RCS-10 uses low voltage and low current, and can use inexpensive and easy-to-route
control cables. Bulky and expensive coaxial and control cables are not required, and
wiring is very simple. Since all cables route through one common point that can be
grounded, lightning protection is almost always significantly better than conventional
wiring methods using multiple coaxial lines into the operating position.
The RCS-10 Relay Unit reliably handles power levels of 5,000 watts below 30MHz,
and power levels of 2.5kW at 50MHz. Port-to-port isolation is typically in the 40dB
range, but varies with frequency and the ports being used. Loss is very low, and this
switch can be considered lossless below 30MHz. More performance details are in the
Remote Relay Unit section of this manual. The RCS-10 Relay Unit can be used with any
BCD (binary coded decimal) 12-16 volt dc 400mA control system. The relay box is
available with or with out lightning protection. The RCS-10L uses the same RCS-10
control box. The relay box is labeled RCS-10L for lightning protection. Each antenna
port is protected.
The RCS-10 Indoor Unit (shipped with this unit) has antenna indicator LED’s and a
manual rotary selector switch. We have included an area where you can label each
antenna. It normally operates from +12 to +16 volt dc power supplies, and consumes less
than 600mA. When used with other relay systems, the RCS-10 (and RCS-12C) control
units are capable of switching up to 25 volts with one ampere of relay current.
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Ameritron RCS-10 Instruction Manual
The RCS-10 Indoor Unit can be used as an interface to convert standard 1-of-8
control input to a BCD output suitable for driving the RCS-10 remote relay box.
The control head also outputs standard 1-of-8 control signals, like the RSC-8V system
uses. Control inputs must be 12 to 16 volts dc positive and capable of supplying at least
400mA. This feature allows other multi-wire control systems, like the RCS-8V system, to
interface with the RCS-10 controller. In all cases, zero input or output voltage selects
antenna 1. The same output occurs when voltage is applied to serial port one. Applying
voltage to terminal one illuminates the position one LED, but the BCD output remains
000. See the Control Logic Table on page 3 for switching details.
FEATURES
Outdoor Unit Features
Inexpensive and Simple Wiring: Selects up to eight antennas using one four-conductor
telephone-type control line.
High Power Capability: The RCS-10 Relay box will handle 5kW into matched loads
below 30 MHz.
Long Relay Life: UL/CSA/VDE approved sealed relays with 16-ampere switching
current rating. Tested to withstand 1200v.
Flexible Mounting: The RCS-10 hardware accepts mast sizes from 1 inch to 2-1/4
inches.
Compact: Approximately 5-1/4” W x 6-7/8” D x 3”H and weighs 3 lbs.
Reliable Connectors: Teflon UHF-style SO-239 females, internal barrier strip for
control lines.
Low voltage: Requires 10-15 volts at less than 300mA.
Wide Frequency Range: Covers DC to over 100 MHz with low SWR, negligible loss,
and good unused port isolation.
Highly Weather Resistant: Sealed relays, stainless hardware, and U-V resistant cover.
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Ameritron RCS-10 Instruction Manual
Control Box Features
Battery or Line Operated: Operates from any filtered 12-16 Vdc supply capable of
supplying 500mA continuous.
Easy-to-Read Antenna Indicators: Eight wide-spaced LED’s indicate the selected
antenna.
Wide Profile: 6-1/4” W x 4-5/8” D x 3-1/4 H helps prevent unwanted movement when
turning selector switch.
Flexible Interface: Accepts and outputs one-of-eight control signals, and outputs threeline BCD data.
REMOTE RELAY UNIT
Typical Electrical Characteristics
Maximum Loss:
30MHz (and lower) negligible, 60MHz under 0.1dB, 150MHz under .25dB
15 MHz 30MHz 60MHz 150MHz
Worse Ports Negligible Negligible Under 0.1dB Under 0.25 dB
Maximum 50-ohm VSWR:
Below 30MHz under 1.25:1, below 60MHz under 1.3:1, below 150Mhz under 1.8:1
15 MHz 30MHz 60MHz 150MHz
Worse Ports Negligible Under 1.25:1 Under 1.3:1 Under 1.8:1
60dB Port-toport Isolation at 150MHz (unused port terminated into 50 ohms) in –dB.
Isolation improves greatly at lower frequencies.
150 MHz Port-to-port crosstalk:
Worse case –19dB, typical –30dB, best case –60dB Port-to-port Isolation at 150 MHz
(unused port terminated into 50 ohms) in -dB. Isolation improves greatly at lower
frequencies.
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Ameritron RCS-10 Instruction Manual
The horizontal row is the “through ports”; the vertical row is “unwanted ports”:
Ports 1 2 3 4 5 6 7 8
1 X 25.8 23.7 39 24.1 43.5 42 56
2 19.8 X 31.1 24 37.9 23.5 56 42.4
3 19.8 37 X 25.5 38.7 58 24.3 44.4
4 30.8 19.5 19.4 X 54 37.5 37.3 24.1
5 19.4 40.1 38.4 52 X 25.4 23.3 39.6
6 32.5 18.9 46 38.8 19.8 X 30.7 23.5
7 35 51 19.6 40.2 19.7 37.4 X 25.2
8 46 32.4 32.4 19.1 30.6 19.4 19.3 X
Description
The remote relay unit is designed for indoor or outdoor mounting. It has a UV resistant
ABS weather cover and corrosion resistant metal parts. The mounting bracket assembly
is designed to accept masts from 1 inch up to 2-1/4 inch outside diameter, but can also be
attached to flat surfaces.
The remote relay switch section is designed for 50-ohm systems, and operates from dc to
60 MHz with very good performance. The RCS-10 can be used to 150 MHz, but only in
non-critical applications. Examples of non-critical applications are switching antennas for
local repeater or simplex operation. Examples of critical applications where the RCS-10
could cause problems would include long-distance weak-signal work or SWR critical
systems. SWR of the RCS-10 can be as high as 1.8:1 on 150MHz, and port-to-port
isolation can be as low as 19dB.
The RCS-10 relay switch section is normally supplied with high-quality UHF-type
connectors, although N-connector models are available. 16-ampere sealed contactors
easily handle power levels exceeding 1500 watts on frequencies below 60MHz, and over
500 watts at 150MHz. Typical power handling below 30 MHz exceeds 5kW.
IMPORTANT NOTE ABOUT CONNECTORS!
Although type-N connectors improve weather sealing, they will not improve loss or SWR
performance of this switch. Standard UHF connectors have negligible loss, and have
immeasurable affect on system SWR below upper VHF. Type-N connectors may reduce
power-handling capabilities of this switch.
Control signals use a three-wire system (plus ground). The control signals are BCD
encoded. In this system control wires are labeled A, B and C, and operate using an
assigned value of A=1, B=2, and C=4. By using this system, three wires can count from
zero to seven. The relay box selects up to eight antennas using the following scheme:
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Ameritron RCS-10 Instruction Manual
Logic Table
Ant 1 Ant 2 Ant 3 Ant 4 Ant 5 Ant 6 Ant 7 Ant 8
A (1) Off On Off On Off On Off On 160mA
B (2) Off Off On On Off Off On On 80mA
C (4) Off Off Off Off On On On On 40mA
Note that Ant 1= BCD 0 (0+0+0=0) counting up to Ant 8 which is BCD 7 (1+2+4=7).
LIGHTNING PROTECTION NOTE!
Antenna port “ANT 1” is selected anytime control box voltage is removed, regardless of
selector switch position. If you do not need all eight ports, antenna port “ANT 1” can be
shorted directly to ground to improve lightning protection. You can ground port “ANT 1”
by installing a PL-259 with the center pin shorted to the connector shell. If you use all
ports, try to put the smallest and lowest antenna on port 1. This will minimize risk of
lightning damage.
See Lighting Protection on page 8 for more details.
The control cable can use relatively small size wires. Large rotor cables are unnecessary,
maximum control current is less than 160mA per conductor and voltage is less than 15
volts. The ground connection carries a maximum current of 280mA, but ground current
also flows over the coax shields and other paths without harmful effects. Standard
outdoor-rated 24-gauge or heavier telephone wire is adequate even with cable runs of 500
feet or longer. The main considerations are cable life when exposed to the weather, rather
than current carrying. Control cable conductor resistance must be under 20 ohms for
reliable switching.
INSTALLATION GUIDELINES
The relay unit can be installed either indoors or outdoors. Wherever the unit is
installed, heed the following guidelines:
Always mount this unit with the connectors facing down.
Do not attempt to seal the cover. This unit must be allowed to exchange air through
imperfect sealing, or it may collect moisture.
Avoid mounting locations that have an unnecessary concentration of water, such as
corners of buildings under water runoff. Never mount the switch lower than the
maximum expected height of snow or water.
Ground the mounting bracket by clamping it directly to a tower or mast, or running wide
copper flashing from it to a good earth ground.
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Ameritron RCS-10 Instruction Manual
THIS LENGTH MAY VARY UP TO
3 FT. IT MUST NOT CONTACT
2 TURNS 6” DIA. ON ALL CABLES
DRIP AND LIGHTNING RETARDING LOOPS
IMPOR TANT
NEVER switch antennas with more than 100 watts
RF power applied to the feedline. Damage to the
switching contacts may result from “hot switching.”
When possible coil all cables near this unit, and always use drip loops. See figure 1.
Connect the lowest and smallest antenna to port one, or short port one and use ports 2-8
for antennas if possible. See the Lightning Protection section of this manual.
THE MAST OR TOWER
LEAVING AND ENTERING THE
RELAY BOX. KEEP COILS SPACED
FROM EACH OTHER BY VERTICAL
OR HORIZONTAL SEPARATION OF
2” MINIMUM
TAPE TO THE MAST OR TOWER FOR
SUPPORT NEAR THE RELAY BOX
MOUNTING LOCATION
TO ANTENNA
Figure 1
Wiring
Wiring is very simple. Be sure any wire you use is suitable for the environment it will be
placed in. Do not bury above-ground rated wires, and do not use indoor non-UV resistant
wires in direct sunlight.
Three insulated wires should connect terminals A, B, and C on the relay box to terminals
A, B, and C on the indoor control head. The ground return can either be made through the
coaxial cable shield, or through additional conductor(s) in the control wire.
We recommend following a standard resistor color code format for wiring. Use brown for
A, red for B, and orange for C if possible. Otherwise, start with the lowest standard color
and work upwards. If you do this with all cables, you will rarely need to keep wiring
notes.
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Ameritron RCS-10 Instruction Manual
Wire gauge is not important, as long as the total resistance of the control wire used is less
than 20 ohms. This means very long small-gauge wires will normally work fine. Normal
telephone-type #24 wires will work at distances well over 500 feet. The largest concern
related to wire selection is mechanical life rather than electrical characteristics.
If you use another brand of control head, ports A, B and C are encoded with BCD 1,2,
and 4 respectively. Antenna 1 is BCD zero, while antenna 8 is BCD 7. The switch
requires 12 volts DC of either positive or negative polarity.
Indoor Control Unit
The indoor unit can be located at any convenient location, as long as it is not exposed to
moisture. It should be grounded to the station ground, and preferably powered from a
separate wall adaptor. Current draw is approximately 300mA maximum, but we
recommend a 500mA power supply for headroom.
This unit is polarity sensitive. It requires the following power connection:
The sleeve is negative, and can be grounded or floated at the power supply. The center
pin is positive, and MUST be ground isolated. The supply must be capable of supplying
300mA continuous at 12-15 volts dc, when using the standard RCS-10 outdoor relay box.
To ensure the supply meets these requirements, we recommend using 500mA or larger
power adaptors (“wall-warts”). This unit will accept voltages of 25 volts if you want to
use it with other relay systems.
The rear-panel connections (figure 2) are labeled A through C for BCD control outputs
used with the RCS-10 remote relay box, and 1 through 8 for one-of-eight inputs or
outputs (such as used with RCS-8 and other switching systems). Maximum current
capability is one ampere.
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Ameritron RCS-10 Instruction Manual
+Vdc
116 WILLOW ROAD
STARKVILLE, MS 39759
A
MADE IN U.S.A.
The RCS-10 is internally fused with a standard auto-glass (3AG) style 1-ampere fuse. If
your power supply is capable of supplying significantly more than one ampere, you
should also fuse the power lead at the power supply with a low-current fuse. Installing a
fuse at the power supply eliminates safety hazards associated with overheated power
leads, if the leads should become shorted.
Terminals A, B, and C are BCD encoded outputs for the relay unit. Terminal “A” is BCD
1, terminal “B” BCD 2, and terminal “C” is BCD 4. This provides a numerical total of
zero through seven for selecting relays. Antenna port one on the relay box is selected with
all BCD outputs zero, port 2 with only BCD “A” high, and so on until port eight is
selected with all BCD ports high.
When antenna position one is selected, voltage on A, B and C is zero volts. This is the
same voltage as when the control head power is turned off. Because of that, antenna port
1 is selected whenever the switch is off or has no power.
There is an internal 2-pin jumper on the left side (rear view) of the front-panel printed
circuit board. When these pins are NOT jumpered, the LED’s are dim. When these pins
are jumped, the LED’s are brighter. When using voltages over 20 volts, you must be sure
these pins are not jumped.
B
1 4
C
2
3 6 8
AMERITRON
5 7
Figure 2
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Ameritron RCS-10 Instruction Manual
LIGHTNING PROTECTION
Proper grounding and cable routing is the single most important aspect of lightning
protection and RFI (radio frequency interference) reduction. We recommend reading
technical books or articles written by knowledgeable experts on grounding, rather than
relying on hearsay or folklore. As a general rule, anything done to improve lightning
protection also improves RF grounding and reduces unwanted RF interference.
Each piece of equipment at the operating position should connect to a common ground
point, or common ground buss.
The ground connection from the station should be made with wide smooth copper
flashing or tubing to a good earth ground.
The outside ground should be connected to the power line ground and telephone company
ground with the shortest-possible heavy conductor.
The outside ground should use multiple ground rods, and ideally should include several
buried wires to spread lightning current out over a large surface area.
All leads leaving a tower or mast should come down to ground level and exit the area of
the tower at or below ground level.
The tower or mast should be properly grounded.
The RCS-10 outdoor unit should be mounted directly to the tower or mast on grounded
tower or masts, or to a well-grounded metal post when tower mounting is not desirable or
practical.
The best protection is to disconnect antennas leads, although that is generally not
necessary with proper installation and grounding.
NOTE: Good lightning protection requires use of wide, smooth, copper flashing or
large, round, smooth conductors for ground leads. Avoid using braided or
woven conductors for ground leads, unless the lead has to be repeatedly flexed.
If you desire additional lightning protection, you can ground the “ANT 1” port of the
RCS-10 Relay Box by attaching a shorted connector. This connects the feedline center
conductor to the shield whenever power is removed, and opens all other antenna leads.
The main drawback is this reduces available antenna ports to seven. While it is
impossible to guarantee immunity from lightning damage, grounding position one will be
a large step towards that goal.
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Ameritron RCS-10 Instruction Manual
TECHNICAL ASSISTANCE
If you have any problem with this unit first check the appropriate section of this manual.
If the manual does not reference your problem or reading the manual does not solve your
problem, call Ameritron at 662-323-8211. We can only help if you have your RCS-10
manual, radio manual, and information about your station available during the call.
We strongly recommend calling Ameritron with any questions, but questions can be
mailed directly to Ameritron at 116 Willow Road, Starkville, MS 39759 or faxed to 662323-9810. Be sure to send a complete description of the problem, explain how this unit is
being used, and include a complete description of your station.
NOTES
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Ameritron RCS-10 Instruction Manual
SCHEMATIC
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Ameritron RCS-10 Instruction Manual
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