Red Lion IFMR User Manual
Page 4
4
CONNECTIONS & CONFIGURATION SWITCH SET-UP FOR VARIOUS SENSOR OUTPUTS
Note: Separate power supplies must be used for sensor power and input power to maintain the isolation breakdown voltage specification. If isolation between power
and input is not needed, then a single supply can be used for both unit and sensor power.
The Model IFMR Speed Switch uses a comparator amplifier connected as a
Schmidt trigger circuit to convert the input wave form into the pulse form
required for proper circuit operation. Three set-up switches are used to configure
the input circuit to accept signals from a wide variety of sources, as follows:
S1 - ON: Connects a 1 K
pull-down resistor for sensors with sourcing
outputs. (Maximum sensor output current is 24 mA @ 24 VDC
output.)
S2 - ON: For logic level signals, sets the input bias levels to V
IL
= 2.5 V,
V
IH
= 3.0 V.
OFF: For increased sensitivity when used with magnetic pickups, sets the
input bias levels to V
IL
= 0.25 V, V
IH
= 0.75 V.
S3 - ON: Connects a 3.9 K
pull-up resistor for sensors with current sinking
output. (Max. sensor current = 3 mA.)
INPUT CIRCUITS, SENSOR CONNECTIONS AND CONFIGURATION SWITCH SET-UP
CONFIGURING THE IFMR
Upon entry to a set-up parameter, the Input LED blinks the current numerical value of a setting at a 1 Hz rate. A setting
of “1” is indicated by one blink (½ sec on, ½ sec off), through a setting of “9”, which is indicated by nine blinks. A setting
of “0” is indicated by a single short flash (40 msec on, 1 sec off). After the entire value is indicated, the IFMR pauses two
seconds and repeats the value.
During entry of a new value, if the Mode switch (S4) or any of the CFG DIP switch positions are changed before the push
button is pressed, the IFMR aborts the entry process and retains the previous setting.
To begin set-up, place DIP switch 4 to the on (up) position. DIP switches 5, 6, and 7 access unit configuration settings.
Note: To return to normal operation,
place DIP switch 4 in the down
(RUN) position.
( ) Indicates Configuration Section
GREEN
LED
SWITCHES
ROTARY
PUSHBUTTON
SWITCH
INPUT
LED
OUTPUT
RED
DIP
OUT
IN STA
TUS
DIP SWITCH DESCRIPTION
SECTION
Operating Mode
(1.0)
Set Trip Frequency Using an Input Signal or Frequency Generator
(2.0)
Set Trip Frequency Using the Rotary Switch
(3.0)
Set Minimum Response Time
(4.0)
Set Relay Trip Point
(5.0)
Set Relay Release Point
(6.0)
4
5
6 7
5
4
7
6
5
4
7
6
5
4
7
6
5
4
7
6
5
4
7
6
SENSOR
NPN O.C.
OUTPUT
RED
WHT
BLK
RLC SENSOR MODELS:
ASTC, LMPC, PSAC, ZCG, ZFG, ZGG, ZHG, ZBG
+12 V
INPUT
COMM.
SRC LOGIC SNK
ON 1 2 3
NPN O.C.
OUTPUT
SENSOR
WHT
BLK
RED
COMM.
INPUT
EXT. VDC+
EXT. VDC-
8
9
*
SENSOR
PNP O.C.
OUTPUT
+12V
OUTPUT
COMM.
+12 V
INPUT
COMM.
SRC LOGIC SNK
ON 1 2 3
PNP O.C.
OUTPUT
SENSOR
OUTPUT
COMM.
+12V
COMM.
INPUT
EXT. VDC+
EXT. VDC-
8
9
*
+12V
INPUT
COMM.
SRC LOGIC SNK
MAGNETIC PICKUP
ON1 2 3
+12 V
INPUT
COMM.
SRC LOGIC SNK
ON 1 2 3
1.8K
1.8K
10µF
CONTACT
MACHINE GROUND
COMM.
INPUT
EXT. VDC+
EXT. VDC-
8
9
1.8K
CONTACT
MACHINE GROUND
10µF
1.8K
BLK OR BRN
BLU
+12 V
INPUT
COMM.
SRC LOGIC SNK
ON 1 2 3
7
8
9
RLC
SENSOR
MODELS
PSA-1
PSA-2
SRC LOGIC SNK
ON 1 2 3
+12 V
COMM.
INPUT
SENSOR
-EF
OUTPUT
A
B
C
COMM.
INPUT
EXT. VDC+
EXT. VDC-
8
9
*
C
B
A
OUTPUT
-EF
SENSOR
COMM.
INPUT
EXT. VDC+
EXT. VDC-
8
9
*
MODELS
PSA-1
SENSOR
PSA-2
RLC
BLU
BLK OR BRN
*
Check sensor power requirements before
wiring.
*
Check sensor power requirements before
wiring.
*
Check sensor power requirements before
wiring.
*
Check sensor power requirements before
wiring.
*
Check sensor power requirements before
wiring.
MAGNETIC PICKUPS
RECOMMENDED RULES FOR MAGNETIC PICKUP CONNECTIONS
1. Connect the shield to the common Terminal “9” at the input of the IFMR. DO NOT
connect the shield at the pickup end. Leave the shield “open” at the pickup and insulate
the exposed shield to prevent electrical contact with the frame or case. (Shielded cable,
supplied on some RLC magnetic pickups, has open shield on pickup end.)
2-WIRE PROXIMITY SENSORS
AC VERSION
DC VERSION
OLDER STYLE RLC SENSORS WITH -EF OUTPUT
AC VERSION
DC VERSION
INPUT FROM CMOS OR TTL
SENSORS WITH CURRENT SINK OUTPUT (NPN O.C.)
AC VERSION
DC VERSION
SENSORS WITH CURRENT SOURCE OUTPUT (PNP O.C.)
AC VERSION
DC VERSION
SWITCH CONTACT INPUT
AC VERSION
DC VERSION