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    A419 Series Electronic Temperature Controls with Display and NEMA 1 or NEMA 4X Watertight Enclosures 

Product/Technical Bulletin

For example, if the anti-short cycle delay is set for
7 minutes, the A419 control will not restart the
equipment for 7 minutes after the equipment has cut
out, even if the cut-in temperature value is reached
during the delay. If the temperature reaches the cut-in
value during the delay period, the display flashes
between the sensed temperature and 

ASd

, indicating

that the next On-cycle is being delayed. After the set
delay time has elapsed, the A419 control returns to
normal operation, restarts the equipment (if cut-in has
been reached),

 ASd

 stops flashing, and the LCD

reverts to the normal operating display.

Note: 

Any interruption in supply power to the

A419 control activates the anti-short cycle delay.

Anti-short

Cycle Delay

Load Demand

Output Status

Time

Off

Off

On

On

Load Demand

Overridden

Figure 6: Anti-short Cycle Delay

Sensor Failure Operation 

(

SF

)

 

establishes how the

A419 control operates the equipment in the event of a
sensor or sensor-wiring failure. The A419 control may
be set to run the equipment continuously or to shut it
down if the sensor or sensor wire fails. When a failure
is detected the LCD flashes 

SF

 alternately with 

OP

 if

the sensor circuit is 

open

, or 

SF

 and 

SH

 if the sensor

circuit is 

shorted

. The control implements a 1-minute

delay before initiating a failure response to allow  for
verification of the failure condition and to avoid
nuisance failure indications.

Temperature Units 

establishes the units of

temperature (F° or C°) displayed on the LCD.

Temperature Offset 

(

OFS

) establishes the value of

setpoint-shift (in F° or C°) applied to Setpoint (and
Differential) when a (user-installed) circuit is closed
between the binary input (

BIN

) and common (

COM

)

terminals. The offset value may be set from 0 to 50F°
or C°.

The 

Temperature Offset

 function is used to reset the

Heating Setpoint to a lower temperature (secondary)
setpoint or reset the Cooling Setpoint to a higher
temperature (secondary) setpoint by the temperature
value set in Temperature Offset.

The 

BIN

 and 

COM

 terminals may be connected to a

(user-supplied) external switching device, such as a
time clock, that has a set of Single-Pole, Single-Throw
(SPST) contacts. Closing a circuit between the 

BIN

and 

COM

 terminals activates the Temperature Offset.

See 

Wiring

.

This function enables the control to alternate between
two temperature setpoints based on the position of the
binary input switch. The difference between the
primary and secondary setpoints (in F° or C°) is set in
the Temperature Offset function (

OFS

) using the

touchpad. See 

Setting Other Functions

.

Table 1 shows an example of Temperature Offset.

Table 1: Temperature Offset Example

Mode of

Operation

Setpoint

Temperature

Offset Value

Secondary

Setpoint*

Cooling

70°

78°

Heating

70°

62°

*

Setpoint when circuit between binary input terminals 
(BIN and COM) is closed

When the circuit is closed between the binary input
(

BIN

) common (

COM

) terminals, the offset function is

enabled and the A419 control cycles on the secondary
setpoints. 

BIN

 is displayed on the LCD above the °

F

 or

°

C

 symbol when the offset is enabled. See Figure 5.

A419 Control Functions Set by Jumper Position

For instructions on positioning jumpers, see

Positioning the Jumpers

 in the 

Adjustments

 section.

Refer to Figure 12 and Figure 13.

Touchpad Lock:

 The jumper at P5 establishes

whether the touchpad is locked or unlocked. Locking
the touchpad deters accidental or unauthorized
changes to all of the function parameters.

Heating/Cooling Mode

 is established by positioning

the jumper on the top two pins of the P4 jumper. See
Figure 13.

Setpoint Mode: 

Removing or installing the lower

jumper at P4 establishes whether Setpoint is the cut-in
temperature or cutout temperature. See Figure 13.

Cooling/Heating and Setpoint Modes

The A419 control may be in four operating modes:

Cooling/Cut-in

Cooling/Cutout

Heating/Cut-in

, and

Heating/Cutout

. Position the jumpers located on the

circuit board under the A419 control cover to set the
desired mode of operation. See 

Positioning the

Jumpers

.

In 

Cooling/Cut-in mode

 the differential is below

Setpoint. The output relay energizes and the LED
illuminates when the temperature rises to Setpoint.
When the temperature drops to Setpoint 

minus

 the

differential value, the relay and LED de-energize.

Summary of Contents for A419 Series

Page 1: ...Temperature Sensor Features and Benefits Easy to Read Front Panel Liquid Crystal Display Displays the sensed temperature and control function status clearly custom icons on the display indicate the control and system status at a glance Wide Temperature Differential Adjustment Range 1 to 30F or C Allows the user to set a precise 1F or C temperature differential from 1 to 30F or C providing a much t...

Page 2: ...e harmful interference and 2 this device must accept any interference that may cause undesired operation This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of FCC rules These limits are designed to provide reasonable protection against harmful interference when this equipment is operated in a commercial environment This equipment gen...

Page 3: ...n to adjust the control setting Output Relay Status Indicator LED A green LED on the control s front panel illuminates when the SPDT output relay is energized and the Normally Open N O contacts are closed See Figure 5 A419 Control Definitions Cut in is the temperature at which the N O contacts on the SPDT output relay close Cutout is the temperature at which the N O contacts on the SPDT output rel...

Page 4: ...ue set in Temperature Offset The BIN and COM terminals may be connected to a user supplied external switching device such as a time clock that has a set of Single Pole Single Throw SPST contacts Closing a circuit between the BIN and COM terminals activates the Temperature Offset See Wiring This function enables the control to alternate between two temperature setpoints based on the position of the...

Page 5: ...n A419 control has either a standard high impact plastic NEMA 1 or a NEMA 4X corrosion resistant watertight enclosure The A419 control is not position sensitive but should be mounted for convenient wiring and adjustment Note When mounting the control to rigid conduit attach the hub to the conduit before securing the hub to the control enclosure The mounting hole pattern of the NEMA 1 enclosure is ...

Page 6: ...igure 10 and Figure 11 Keep the leads between the control and sensor as short as possible practical in your application The additional resistance in long sensor leads creates error between the actual temperature and the displayed temperature Refer to Table 1 when extending sensor leads Temperature sensor signals may be affected by electrical interference When extending sensor cable beyond 50 ft 15...

Page 7: ...pers to set Cooling Heating Setpoint and Touchpad Lock functions 4 Replace the cover and fasten in place with the four screws 5 Restore power to the control IMPORTANT Verify that the Cooling Heating jumper is positioned properly before powering the A419 control to ensure that the relay operates as intended See Figure 13 and Table 2 Jumper Pins Removed Jumper Positioned on One Pin Installed Jumper ...

Page 8: ...everts to the previously saved setpoint value Any saved A419 control setting values are non volatile and remain in the control s memory during power interruptions Table 3 Function Ranges and Settings Function Range Factory Setting SP Setpoint 30 to 212 F 34 to 100 C 30 dIF Differential 1 to 30 F or C 5 ASd Anti short Cycle Delay 0 to 12 minutes 1 OFS Temperature Offset 0 to 50 F or C 0 SF Sensor F...

Page 9: ...sly saved value for that function Any saved A419 control setting values are non volatile and remain in the control s memory during power interruptions Checkout Before applying power make sure installation and wiring connections are according to job specifications After necessary adjustments and electrical connections have been made put the system in operation and observe the control for at least t...

Page 10: ...s 1 and 2 before performing this step b Disconnect the load from the output relay terminals c Ensure that the Touchpad Lock jumper is installed so that the touchpad is unlocked d Reconnect the sensor leads and supply power to the control e Replace the cover f Check the control settings for proper values g Press and hold the MENU button until Setpoint appears occurs in about 2 seconds h Use the Up ...

Page 11: ...he control Ordering Information Refer to Table 6 to order controls and accessories Table 6 Ordering Information Product Code Number Item Description A419ABC 1C Line Voltage NEMA 1 Enclosure A419 Series Electronic Temperature Control with Display A99 Sensor Included A419AEC 1C Line Voltage NEMA 4X Enclosure A419 Series Electronic Temperature Control with Display A99 Sensor Included Supply Voltage 1...

Page 12: ...hp Full Load Amperes N O N C 16 5 8 A 9 2 4 0 A 8 0 4 9 A Locked Rotor Amperes N O N C 96 34 8 A 55 2 24 A 48 29 4 A Non inductive Amperes N O N C 15 10 A 10 10 A 10 10 A Pilot Duty 125 VA N O contacts 24 to 240 VAC 125 VA N C contacts 120 to 240 VAC 50 VA N C contacts 24 VAC Sensor Type A99BB Type PTC Sensor See Table 6 Control Ambient Temperature Operating 26 to 140 F 32 to 60 C Shipping 40 to 1...

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