ESL 700 Series, 702RE, 702U, 713-5U, 702RU Installation Sheet

Number

Head (sold separately from base)

711U

713

721U

remote test

721UT

731U

741U

photoelectric smoke detector with alarm relay

741UT

731L

Base (sold separately from head)

701U

Number

702E
10PKG

702U

702RE

702RU

Head

TS7

with alarm relay

[1] UL Listed for releasing devices such as electromagnetic door
holders, fire dampers, or smoke dampers.

Number

204

211

706U1A

ndicator with red alarm LED, for use with

706U2A

706U3A
SM
SM

[1] The remote alarm/trouble LED
706U3A models work
741U/741UT models when connected as shown

7 and

Figure

[2] 706U2A and 706U3A only work with the 721U/721UT
models, when connected as shown in Figure 6 item 6.

ESL 700 Series Conventional Smoke and Heat
Detector Installation Sheet

Description

Six-terminal base for all heads; 4 in. (10 cm)

Six-terminal base for 731U, 4 in. (10 cm)

Six-terminal base for 731U, 6 in. (15 cm)

(NO) output and remote alarm/trouble LED output

Description

The ESL 700 Series smoke or smoke with rate-of-rise heat
detectors have field-replaceable optical chambers. The
detector uses an optical sensing chamber to detect smoke and
a fixed-temperature heat sensor to detect heat from fire. For a
list of model numbers, see Table 1. For a list of accessories,
see Table 2.

-

Six-terminal base for all heads, 6 in. (15 cm)

with base (sold together)

-4 Four-wire photoelectric smoke detector

High voltage (120 V) base and head

The 702RE and 702RU bases have a special plastic protrusion
built in to prevent insertion of a low-voltage detector head into

a base containing damaging high voltages (120 V). These

bases can only be used with 731U heads. The 731U includes
auxiliary relay contacts and is only required when connecting
high voltage to the auxiliary relay.

Note: The 731U heads can also be used with 702E and 702U

bases for low voltage applications.

Table 1: Model numbers

Description

Two-wire photoelectric smoke detector head

-5U Two-wire rate-of-rise and 57°C (135°F) fixed
temperature heat detector head

Two-wire photoelectric smoke detector, with

input and remote alarm/trouble LED output

Two-wire photoelectric, with rate-of-rise heat detector

head with remote test, alarm/trouble LED output

[1] Two-wire photoelectric smoke detector head with

auxiliary relay (NC/NO) output

Four-wire

(NO) output and remote alarm/trouble LED output

Four-wire photoelectric smoke and rate-of-rise heat

detector head, alarm relay (NO) output and remote
alarm/trouble LED output

(OEM only, not for resale) see 731U description

Three-terminal base for 711U and 713-5U heads, 6 in.

(15 cm) base, connectors

© 2014 UTC Fire & Security Americas Corporation, Inc. 1 / 6 P/N 13083-EN • REV J • ISS 10APR14

Table 2: Accessories

Description

-12/24V End-of-line, power supervision relay for four-wire
applications

-10PKG Replaceable optical chamber for ESL smoke
detectors (set of 10)

[1] Remote i

721U and 741UT

[1][2] Remote indicator with red alarm LED and keyed

remote test, for use with 721U and 721UT

[1][2] Remote indicator with red alarm LED, keyed

remote test and reset, for use with 721U and
741UT

-200 Smoke! In A Can (canned smoke) for functional
testing of smoke detectors

-EXT1 Extension tube for Smoke! In A Can

on the 706U1A, 706U2A, and

s with both two-wire 721U/721UT and four-wire

in Figure 6 item

7 item 11.

two-wire

Installation

(1) Smooth ceiling
(2)

acceptable mounting area

(3) Wall

(5) 12 in. (300 mm) max.

(1) Base cover
(2)

the head

(3) Gasket

(5)

(1)

(2)

(3)

(4)

(2)

(3)

(4)

(1)

Notes

• Locate detectors in an operating environment as defined
in “Specifications” on page 6.

• Mount detectors on a firm, permanent surface.

Placement and spacing

Use the following location guidelines to optimize performance
and reduce the chance of false alarms.

Smoke detectors:

• Locate wall-mounted smoke detectors so the top of the
detector is no lower than 12 in. (30 cm) below the ceiling.
See Figure 1.

• As a guide, space smoke detectors on smooth ceilings
30 ft. (9.1 m) apart. When determining other spacing,
consider ceiling height, high air movement, and other

conditions or response requirements. Refer to NPFA 72.

• Locate detectors away from air conditioners, heating

registers, and any other ventilation source that may
interfere with smoke entering the unit; also away from
kitchens, wood stoves, garages, furnaces, and bathrooms.

Heat detectors:

• Do not install heat detectors in areas with an ambient
temperature above 100°F (38°C).

Figure 1: Smoke detector placement

Gray indicates the

Figure 2: The six-inch diameter mounting base

(4) Floor

• Mount heat detectors on the ceiling no closer than 4 in.
from the sidewall. On the wall, mount them between 4 and
12 in. from the ceiling.

• When determining detector placement, consider ceiling
height, construction, and ventilation as these affect a
detector’s performance. Refer to NPFA 72.

Installing the base

Select a compatible electrical box for the base. See
“Specifications” on page 6 for a list of compatible electrical
boxes.

The 6-inch diameter bases have three parts; the base itself
that mounts on the electrical box or ceiling, a foam gasket, and
the base cover that conceals the mounting screws (see
Table 1 for model numbers and descriptions). The 6-inch
diameter bases are shipped loosely coupled to the base cover.

Screwdriver slot to unlock

(4) Base

2 / 6 P/N 13083-EN • REV J • ISS 10APR14

To install the base:

(1) To lock, break out this tab with pliers

(1) Head

(2) Base

(1)

(2)

(1)

1. Remove the base cover by simply twisting it counter-

clockwise to unsnap (see Figure 2).

2. Pull the field wires through the electrical box, and then

through the center opening of the base. Connect the wires
to the appropriate terminals according to the wiring
diagrams (see Figure 6 or Figure 7).

3. Dress the wiring neatly, and then verify that the continuity

switch (jumper wire) is touching both terminal 1 and
terminal 2 (see Figure 8). Securely fasten the base with
the appropriate hardware.

4. Check all wiring and mounting connections.

5. Install the gasket. Align the molded line on the base with

the base cover, and then twist clockwise to snap in place.

Consider the locking mechanism before installation

Each detector head is equipped with a breakaway locking tab
to prevent unauthorized removal of the detector head (see
Figure 3). For installations where unauthorized removal of the
detector head is not a concern, the head removes by simply
turning counterclockwise.

Removing the detector head

To remove the detector head, turn it counterclockwise. If the
locking tab was removed, insert a small screwdriver into the
locking tab slot on the side of the base, and then press in while
simultaneously turning the detector head counterclockwise
(see Figure 5).

Figure 5: Removing the detector head with the locking tab
removed

However, when the head must lock to the base, break away
the locking tab with a pair of pliers. Then, to remove the
detector head, insert a small screwdriver into the slot on the
side of the base, pressing in while simultaneously turning the
detector head counterclockwise (see Figure 5).

Figure 3: Removing the locking tab slot

Installing the detector head

To install a detector head, insert the head and rotate it
clockwise to properly align and seat it into the base (see
Figure 4). Then rotate it an additional 15 degrees to lock it in
place. This action automatically opens the continuity switch in
the base and establishes continuity in the system.

Figure 4: Installing the detector head

Wiring

Caution: Risk of system failure. The system may not operate if

the detector is not connected to the control unit initiating device
circuit as specified in the detector or control unit literature.

For two-wire installation, see Figure 6.

For four-wire installation, see Figure 7.

For optional four-wire operation, verify that the voltage range of
the control panel power supply is within the detector voltage
range, and that sufficient current is available to ensure the
operation of all detectors.

End-of-line supervision for four-wire systems

NFPA 72 requires supervision of power wiring in four-wire
systems. To accomplish this, install a power supervision unit
for the appropriate control unit voltage at the end of the
detector power circuit. See Figure 7.

The model 204-12/24V power supervision relay
accommodates both 12 VDC and 24 VDC operation. See the
204-12/24 V installation sheet for more information.

P/N 13083-EN • REV J • ISS 10APR14 3 / 6

Figure 6: 700 series two-wire wiring diagram

(1) Initiating device circuit from a compatible listed control panel
(2)
(3)
(4)
(5)
(6)

only in this two-wire application)

(7) Remote LED P/Ns 706U1A, 706U2A ,or 706U3A (for 721U or

741UT detectors only)

Note: Alarm contacts are shown in the normal state.

(7)

6 4

5

6 4

5

701U

702U, 702E

702RU, 702RE,

702U, or 702E

(1)

(6)

(5)

(3)

NO C NC

1 3

2

1 3

2

1 3

2

(8)

(10)(9)

IDC_IN

IDC_IN

1

3

2

6 4

5

1 3

2

6 4

5

(2)

(3)

(4)

(5)

(1)

702U, 702E

702U, 702E

RD

BN
BN

BK

(11 )

PWR_IN

PWR_IN

IDC_IN
IDC_IN

Figure 7: 700 series four-wire wiring diagram (741UT head)

DC power circuit
Continuity switch
Power supervision relay (P/N 204-12/24V)
End-of-line device
Remote test switch P/N 706U2A (for 721U and 721UT detectors

Testing

• Prior to testing, remove the red dust cover. The units do
not work with the dust cover in place.

• Follow the control panel’s recommended test procedure.

To limit inconvenience to building occupants during testing
it may be necessary to disable or disconnect the alarm
notification appliances, HVAC shutdown, elevator control,
releasing service devices, and extinguishing systems prior
to detector tests. If these or other functions controlled by
the fire system are disconnected during testing, be sure to
perform other tests to confirm that these functions will
operate during an actual event.

• Be sure to enable or reconnect all devices at the
conclusion of testing.

4 / 6 P/N 13083-EN • REV J • ISS 10APR14

(8) Base for 711 series and 713-5U detectors
(9) Base for 721UT detector only
(10) Base for 731U series detectors
(11) Remote LED P/Ns 706U1A, 706U2A, or 706U3A (for 741U or

Testing the wiring for continuity

After all universal mounting bases are installed, including the
end-of-line device, check the system wiring for continuity.

Verify that the manually operated continuity switch in each

base is in the shorting position — making contact with
terminals 1 and 2 (for use at initial installation only). See
Figure 8. Use a screwdriver to reset any unshorted continuity
switches (reset by prying the jumper wire out of the plastic
stopper). This establishes continuity across the alarm initiating
circuit at initial installation. The wiring can now be tested for
continuity using an ohmmeter or “megger.”

721UT detector only)

Figure 8: Continuity switch

(1) Continuity switch

0 to 1

2 to 3

sensitivity test. If

4 to 7

8 to 9

lean the unit

(1) Test magnet

(1)

(1)

Testing the system

After completing all the connections and checking the wiring
per NFPA 72, apply power to the system. There should be no
alarm. If there is an alarm, check each detector to see if the
alarm LED is active. Reset the control panel and see if the
alarm clears. If the alarm does not clear after the panel is
reset, power down the system and determine if there is a
problem with the wiring. If there is no alarm, go to the last unit
and use a voltmeter to check the unit power for the specified
voltage.

Testing the smoke detector

Test the units in place annually, using Smoke! In A Can and
following the directions on the can.

The unit performs a smoke test every 9 seconds while flashing
its LED. If smoke is detected, the rate of sampling increases to
every 4.5 seconds. The smoke detector must detect excessive
smoke in three consecutive tests for the alarm to sound.

If the test is successful (alarm sounds), the LED stays on. This
is a gross, go/no-go test and is not a reliable indication of unit
sensitivity. For in-depth sensitivity testing, see “Performing a
sensitivity test on a smoke detector” below.

To reset the detector, follow the control panel’s reset

procedure. Resetting the control panel will remove power from

the detector and allow it to reset. For a complete test of each
detector, verify the control unit alarm and all ancillary functions.

Performing a sensitivity test on a smoke detector

1. Hold a test magnet near the raised TEST letters on the

detector for more than one second (see Figure 9).

The LED flashes 1 to 9 times.

2. Count the number of LED flashes, and then use Table 3 to

determine the required action.

Table 3: Description of LED flashes

Indication: Unserviceable hardware fault.

Action: Reset and rerun the sensitivity test. If the error
persists, replace the unit.

Indication: Unit is becoming insensitive.

Action: Clean and reset the unit. Rerun the
the error persists, replace the unit.

Indication: Unit is within normal sensitivity range.

Action: None

Indication: Unit is becoming too sensitive.

Action: Verify that the optical chamber is snapped down
securely. If the chamber is correctly installed, c
and replace the optical chamber.

After the sequence of flashes, if the detector finds the
sensitivity to be within limits and if all other tests pass, the
detector goes into alarm until reset by the panel. If the
sensitivity is not within limits, or an unserviceable hardware
fault is detected, the alarm LED continues to flash once per
second until the detector is reset by the panel. If the sensitivity
test indicates an unacceptable level, take the action
recommended in Table 3. If this action does not result in
acceptable sensitivity, replace the unit.

Figure 9: Smoke detector sensitivity level test

Remote LED

Models 721U/721UT and 741U/741UT have connections for an
optional remote LED. The remote LED flashes every 9
seconds for a normal state, flashes once every second for a
trouble state, and turns on steady in alarm. It does not indicate
during loss of power.

Testing the heat detector

The 713-5U heat detector samples for heat continuously. The
photoelectric smoke/heat detectors sample for heat every three
seconds.

P/N 13083-EN • REV J • ISS 10APR14 5 / 6

To test the heat detector:

1. Aim a hot air gun at the detector from 6 to 10 in. (15 to
25 cm) away, taking care not to melt the plastic.

The detector should go into alarm in less than 30 seconds.

Maintenance

(1) Detector cap

(2) Field-replaceable optical chamber

Voltage

Maximum ripple

Typical average

standby current (24 V)

Typical alarm current

Remote LED output

current

Relay contacts

RFI immunity

Heat detector
specifications

Heat detector spacing

Sensitivity

Drift compensation
adjustment

Remote test input

Reset voltage

Reset time

Color

Detector head
dimensions

Base dimensions

Compatible electrical
boxes [

Total height,
base together

Field wiring size

Operating environment

Listings

UL two
compatibility
identifier

(1)

(2)

If a smoke detector drifts beyond its approved sensitivity range
for more than 24 hours, or fails internal diagnostic tests during
power-up, the unit automatically indicates trouble by flashing
its LED every second. Under normal conditions, the LED
flashes every nine seconds. Therefore, a visual check of the
LED status meets NFPA 72 field sensitivity testing
requirements.

In accordance with NFPA 72, visually check the LED flashes
for unit sensitivity within one year of installation and every
alternate year thereafter for commercial installations, or every
three years for residential sites.

Cleaning the smoke detector

The smoke detectors have an optical chamber that unsnaps for
easy field cleaning and service. Whenever the LED indicates
that cleaning is necessary, follow the steps given below.

To clean the smoke detector:

1. Remove the detector cap (see Figure 10), and then
unsnap and throw away the optical chamber.

2. Use compressed air to thoroughly clean the optical base,
and then snap a new optical chamber into place.

Note: Be sure the new optical chamber is seated all the

way down.

3. Replace the detector cap and verify sensitivity. See
“Performing a sensitivity test on a smoke detector” on
page 5.

Figure 10: Optical chamber

Two-wire: 60 mA (max.), if not limited by

control panel

Four-wire: 50 mA (max.) but 15 mA (min.)

5.0 to 8.5 mA

2 A at 30 VDC, 1 A at 120 VAC

20 V/m minimum, 0 to 1,000 MHz

Fixed temperature: 135° ±3°F (57° ±1.7°C)

[1]

1.55 to 3.22%/ft. obscuration

2.5 V max.

1 second min.

White head and base

2]

head and

12 to 24 AWG

Temperature
Relative humidity

[1] For models 713-5U, 721UT, and 741UT.

[2] Bases may also be mounted without electrical boxes if the AHJ
approves it or if codes allow.

Rate of rise: 15°F/min and > 105°F
(8.3°C/min and > 40.6°C)

721UT, 741UT: 50 ft.

713-5U: 70 ft.

1.0%/ft. max. for photoelectric models

100 Ω max.

4 in. (10 cm) diam., 1.75 in. (4.44 cm) height

701U, 702U, 702RU: 6 in. (15.2 cm) diam.,

0.6 in. (1.3 cm) height

702E, 702RE: 4 in. (10 cm) diam., 0.5 in.
(1.27 cm) height

701U, 702U, 702RU: Standard single-gang
electrical boxes; 4-inch square, round, or
octagonal boxes; 3.5-inch octagonal boxes;
WIREMOLD 5738A or 5739 fixture boxes

702E, 702RE: 3-inch round electrical boxes

1.98 in. (5 cm)

32 to 100°F (0 to 38°C)
0 to 95% noncondensing

Specifications

8.5 to 33 VDC, not polarity sensitive

10% (Vp-p)

6 / 6 P/N 13083-EN • REV J • ISS 10APR14

711U, 713-5U: 70 μA
721U, 721UT, 731L, 731U, 741U, 741UT:
100 µA

Regulatory information

UL Listed (UL 268 and UL 521)

FM Approved (except for TS7-4 and TS7-4T)

CSFM (California State Fire Marshal) Approved

-wire

S10A for all models except 731U/731L

S11A for 731U/731L

S00 for all bases

Contact information

For contact information, see www.interlogix.com.