Securitron TSB-3 User Manual

PN#

500-16400

Page

7

Rev.

C,

11/07

generally a good setting. Before replacing the end cap, experiment by touching the bar and observe that
the lock releases. Experiment with gloves if you expect that they will be used. You may want to increase

the sensitivity somewhat, but if you leave it just below the point where it is continuously released, you
risk a condition where the unit will fail by being released all the time.

FIG. 6: END VIEW OF SENSOR/CIRCUIT BOARD

CABLE CONNECTOR (MALE)

RING TERMINAL
MAKES
CONTACT
FROM
SENSOR
TO BAR

POTENTIOMETER

BACKUP PUSH BUTTON
(ON OPPOSITE SIDE)

CIRCUIT BOARD

3.7 USE OF REDUNDANT (BACKUP) SWITCH AND LABELS
A red push switch is mounted on the rear of the bar. The purpose of this switch is to provide backup in
case of any malfunction or misadjustment of the sensor. Pushing the button breaks the connection

between the white (COM1) and green (NC1) wires just the same way as if the bar was touched. It
therefore provides a "hard" backup circuit break which will release the controlled fail safe lock. It does not

however affect the COM2 and NO2 circuit (blue and orange). If these NO contacts are being used, for
example, to provide REX input to an access control system, pushing the backup button will not achieve

this, but egress safety is maintained as with the switch mounted, there are two independent controls
which can release the door. In the event that the sensor fails, the button will still work.

A label is supplied which should be affixed to the bar (see drawing to
the right) to draw attention to the backup switch. Application of the label

is particularly important where people encounter the bar who are not
familiar with it such as in a public occupancy. The label includes two

arrows owing to the uncertainty of which end of the bar it will be
mounted on.

A second label stating “PUSH TO EXIT” is also shipped with the bar. If
desired, this label cab be affixed to the front center of the bar itself in

order to prompt users that the bar (rather than the door) must be pushed
to gain egress.

4. ELECTRIC LOCK SELECTION
Electric lock selection is important to obtain best results from the TSB. The product allows silent and
immediate egress without the mechanical action of traditional exit devices which require periodic

maintenance and replacement. Having no moving parts, the TSB possesses an extended operating life.
The product was designed for use with Securitron's Magnalock. The Magnalock secures the door
with magnetic force only and therefore has no possibility of jamming and thereby denying egress. The

Magnalock also has internal electronics which allow it to release very rapidly. When used with the TSB,
which is also a fast device, exit is immediate and the impression a person exiting gets is that the door is

not locked at all. Other magnetic locks generally operate significantly more slowly than the Magnalock.
This makes egress less convenient as a person must pause somewhat after touching the bar until the door

releases.

5. OPERATIONAL SECURITY CONSIDERATIONS
Typical use of the Touch Sense Bar provides free egress from the interior protected area. The electric lock
secures against unauthorized entry. It is of important concern that persons on the outside cannot activate

the bar from the outside. This is a common problem with other interior release devices. For instance, if a
panic bar with switch is used, it is possible to trip it from the outside if the intruder can introduce a coat

hanger in between the door and frame. Aluminum frame glass doors tend to allow this more than other
types. Similarly, microwave detectors used on the inside can sometimes be activated from the outside if

the door is vibrated strongly.

The Touch Sense Bar is more secure with respect to the outside. To assure this, however, the user must
be made aware of certain operational characteristics. The sensor functions by setting up an oscillating
electric field which conforms along any metal surface that contacts the sensor's antenna wire. In the

Touch Sense Bar it is the bar itself that carries the field. The electric field is disturbed by the near

E M E R G E N C Y

R E L E A S E

B U T T O N