BEA 10MATRIX User Manual

BACK VIEW

Main
Connector
(86CP11)

MATRIX

“The Peak Of Detection”

Power LED

Dip Switches

Detection State LED

Presence Time
Adjustment
Potentiometer

Sensitivity Adjustment
Potentiometer
(Dual Loop Only)

Detection State LED
(Dual Loop Only)

Sensitivity Adjustment
Potentiometer

FCC ID#: G9B-MATRIX IC ID#: 4680A-MATRIX

DIGITAL INDUCTIVE LOOP SENSORS

1 Description

The MATRIX (10MATRIX) Digital Inductive Loop Detector is the ideal solution for parking barrier control, motorized gates and doors, vehicle
access control and industrial control systems. The MATRIX is a high performance single or dual-channel vehicle detector packaged in a

compact housing. The connection is made with a standard industrial 11-pin round connector. The six versions listed below include single or

dual-channel, and 3 possible power supplies:
10MATRIXS110 : Single loop detector with 110 to 120 V AC power supply.

10MATRIXS220 : Single loop detector with 220 to 240 V AC power supply.
10MATRIXS1224 : Single loop detector with 12 to 24 V AC/DC power supply.
10MATRIXD110 : Dual loop detector with 110 to 120 V AC power supply.
10MATRIXD220 : Dual loop detector with 220 to 240 V AC power supply.
10MATRIXD1224 : Dual loop detector with 12 to 24 V AC/DC power supply.

USER’S GUIDE

2 Specications

TERMINOLOGY SPECIFICATION TERMINOLOGY SPECIFICATION

TECHNOLOGY Inductive Loop POWER FREQUENCY 48 to 62 Hz
TUNING Automatic POWER CONSUMPTION < 2.5 W
DETECTION MODE Presence TEMPERATURE RANGE -22ºF to 158ºF (-30ºC to 70ºC)
PRESENCE TIME 1 min to innity with 250 steps DEGREE OF PROTECTION IP40
PULSE TIME OUTPUT 100 ms or 500 ms WEIGHT 7 oz. (<200g)
LED INDICATORS Power: Green

Loop Status 1: Red
Loops Status 2: Red

PROTECTIONS Loop Insulation Transformer

Zener Diodes

Gas Discharge Clamping
FREQUENCY RANGE 20 kHz to 130 kHz INDUCTANCE RANGE 20 H to 1000 H
FREQUENCY STEPS Single Loop: 4

Double Loop: 2 (for each loop)

DIMENSIONS 3.0 in (H) x 1.5 in (W) x 3.0 in (D)

(76mm x 38mm x 76mm)
SENSITIVITY (ΔL / L) 0.005% to 0.5% with 250 steps CONNECTION 86CP11 (Standard 11-Pin Round)

REACTION TIME Single Loop: 25ms

Double Loop: 50ms (ea. channel)

2 OUTPUT RELAYS (free po­tential change-over contact)

Max Contact Voltage: 230 VAC

Max Contact Current: 5A (res.)

SETUP TIME AFTER CONFIGURATION 2 s max by channel SETUP TIME AT POWER ON 8 s max by channel
POWER SUPPLY

(depending on model)

12-24 AC/DC + 10%
230 VAC + 10%
115 VAC + 10%

PRODUCT COMPLIANCE R&TTE: 1999/5/EC

EMC: 89/336/EEC

FCC: 47 CFR 15

IC: RSS-210 ISSUE 5

3 Precautions

75.1046.04 EN 20080505 Page 1 of 5

Shut off all power before attempting any wiring procedures.



Maintain a clean & safe environment when working in public areas.



Constantly be aware of pedestrian trafc around the door area.



Always stop pedestrian trafc through the doorway when performing tests that may result in unexpected reactions by the door.



ESD: Circuit boards are vulnerable to damage by electrostatic discharge. Before handling any board ensure you dissipate your body’s charge.









Always check placement of all wiring before powering up to insure that moving door parts will not catch any wires and cause damage to equipment.
Ensure compliance with all applicable safety standards (i.e. ANSI A156.10 / A156.19) upon completion of installation.
DO NOT attempt any internal repair of the sensor. All repairs and/or component replacements must be performed by BEA, Inc. Unauthorized disas-

sembly or repair:

1. May jeopardize personal safety and may expose one to the risk of electrical shock.

2. May adversely affect the safe and reliable performance of the product will result in a voided product warranty.

4 FCC Compliance

L

Ea

Eb

Area Number of turns

<32 ft² <3 m² 4

32 – 54 ft² 3 – 5 m² 3

65 – 108 ft² 6 – 10 m² 2

1 ¼ - 2” (30 –50mm)
depending on the cable
turns number

Cleananddryslotsprior
toinsertingcable

Loop sealant

Ground

level

10MATRIXS110 : Single loop detector with 110 to 120 V AC power supply.
10MATRIXS220 : Single loop detector with 220 to 240 V AC power supply.
10MATRIXS1224 : Single loop detector with 12 to 24 V AC/DC power supply.
10MATRIXD110 : Dual loop detector with 110 to 120 V AC power supply.
10MATRIXD220 : Dual loop detector with 220 to 240 V AC power supply.
10MATRIXD1224 : Dual loop detector with 12 to 24 V AC/DC power supply.

The Digital Transmitters and Receivers comply with Part 15 of the FCC rules. Operation is subject to the following two conditions:

1) This device may not cause harmful interference and;

2) This device must accept any interference received including interference that may cause undesired operations.

Changes or modications not expressly approved by BEA, Inc. for compliance could void the user’s authority to operate the equipment.

FCC ID#: G9B-MATRIX IC ID#: 4680A-MATRIX

5 Loop Installation Tips

A . CABLE SPECIFICATIONS FOR LOOP AND FEEDER

• 16 AWG (1.5mm²) cross section area ;

• Multi-strand cable ;

• Insulation material : PVC or Silicone ;

• For the feeder cable, the wire must be twisted at least 15 times per yard for each cable.

• Feeder for long runs used for foil screened cable is recommended (earth at equipment end only)

• The feeder cable must be rmly xed to avoid any false detection (max length: 330 ft. / 100m).

• Waterproof cable junction box is required.

B. LOOP GEOMETRY

• When two adjacent loops are connected to a dual channel

sensor, it is possible for these loops to share a common

slot, if so required. As the channels are multiplexed, no

interference will occur.

• Avoid large loops or long feeder (max 330 ft. / 100 m),

or else the sensitivity will be affected.

C. NUMBER OF LOOP TURNS

• Measure the length (L) and width (Ea) of one loop. Multiply these numbers together to determine the loop surface area.

• For example: If L=10 ft, Ea= 3 ft, then the area = 30 ft2; 4 loop turns are recommended - or ­ If L=2m, Ea=1m, then the area = 2 m2 ; 4 loop turns are recommended.

WARNING: FOR CONFORMITY REASONS, IN ANY INSTALLATION, THE LOOP SURFACE MULTIPLIED BY THE NUMBER OF

Recommended values for the turns:

D. SLOT DEPTH

6 Wiring

Page 2 of 5 75.1046.04 EN 20080505

TURNS SHOULD NOT EXCEED 215 SQUARE FEET OR 20 SQUARE METERS.

PIN 1: Power Supply
PIN 2: Power Supply
PIN 3: Relay 2 (NO)
PIN 4: Relay 2 (COM)
PIN 5: Relay 1 (NO)
PIN 6: Relay 1 (COM)

WARNING: DO NOT REMOVE THE GREASE ON

THE CONNECTOR’S PINS.

WARNING: PIN #8 MUST BE CONNECTED TO

THE LOOP AND TO GROUND.

PIN 7: Loop A
PIN 8: Loop Common (Connect to Ground )
PIN 9: Loop B
PIN 10: Relay 1 (NC)
PIN 11: Relay 2 (NC)

7 Programming

Configuration A

Single loop

Configuration B

Dual loop in independent mode

Configuration C

Dual loop in combined mode

Dip Switch

OFF ON OFF ON OFF ON

DS#1

High (loop A) Low (loop A)

[High –30%]

High (loop A) Low (loop A)

[High –30%]

DS#2

See next table

High (loop B) Low (loop B)

[High –30%]

High (loop B) Low (loop B)

[High –30%]

DS#3

Active mode Passive mode Active mode Passive mode Active mode Passive mode

DS#4

ASB OFF ASB ON ASB OFF ASB ON ASB OFF ASB ON

DS#5

Relay A :
Presence on
loop A

Relay A :
Pulse on loop

Relay A :
Presence on loop A

Relay A :
Pulse on loop A

Not used Not used

DS#6

Relay A :
Pulse on loop
A
entry

Relay A :
Pulse on loop A
exit

Relay A :
Pulse on loop A
entry

Relay A :
Pulse on loop A
Exit

Relay B :
Non-Directional
mode

Relay B:
Directional AB
mode

DS#7

Relay B :
Presence on
loop A

Relay B :
Pulse on loop A

Relay B :
Presence on loop B

Relay B :
Pulse on loop B

Relay B :
Pulse on loop B

Relay B :
Pulse on loop A

DS#8

Relay B :
Pulse on loop
A
entry

Relay B :
Pulse on loop A
exit

Relay B :
Pulse on loop B
entry

Relay B :
Pulse on loop B
exit

Relay B :
Pulse on loop entry

Relay B :
Pulse on loop exit

DS#9

100 ms 500 ms 100 ms 500 ms 100 ms 500 ms

DS#10

Not used Not used Independent Combined mode Independent Combined mode

MAX

1 min

10 min

1 hr

2

5

20

In

f

inity

PRESENCE TIME

hr

hr

hr

MIN

0.5%

0.44%

0.34%

0.25%

0.18%

0.1%

0

.005%

SENSITIVITY

MAX

MIN

DETECTION STATUS

FAIL-SECURE MODE (Active Mode)
(Relay is not energized upon power-on)
DIPSWITCH 3 = OFF

FAIL-SAFE MODE (Passive Mode)
(Relay becomes energized upon power-on)
DIPSWITCH 3 = ON

NO DETECTION

The COM and NO terminals are OPEN.
COM and NC terminals are CLOSED.
The relay is de-energized.

The COM and NO terminals are CLOSED.
COM and NC terminals are OPEN.
The relay is energized.

DETECTION

The COM and NO terminals are CLOSED.
COM and NC terminals are OPEN.
The relay is energized.

The COM and NO terminals are OPEN.
COM and NC terminals are CLOSED.
The relay is de-energized.

UPON POWER LOSS

The COM and NO terminals are OPEN.
COM and NC terminals are CLOSED
The relay is de-energized.

The COM and NO terminals are OPEN.
COM and NC terminals are CLOSED.
The relay is de-energized.

Same

Same

I. THE 3 CONFIGURATIONS

A. Conguration A: Single Loop Detector (MATRIX-S)
B. Conguration B: Dual Loop Detector in Independent Mode with Dipswitch #10 OFF (MATRIX-D)
C. Conguration C: Dual Loop Detector in Combined Mode with Dipswitch #10 ON (MATRIX-D)

II. POTENTIOMETERS

A Potentiometer for Adjustment of the Maximum Duration of a
Presence Detection: from 1 min to Innity (See PRESENCE TIME)

A Potentiometer for Adjustment of the Linear Sensitivity ( f)
for the Loop A: from 0.005% to 0.5% (See SENSITIVITY)

A Potentiometer for Adjustment of the Linear Sensitivity ( f)
for the Loop B: from 0.005% to 0.5% (See SENSITIVITY)

III. RELAY CONFIGURATION (DIPSWITCH #3)

75.1046.04 EN 20080505 Page 3 of 5

Δ

Δ

A 10 position dip switch is located on the front of the Matrix single detector. Dip switch 3, 5, 6, 7 and 8 congure the relay, while dip switch 9
controls the duration of the pulse when the Matrix is congured for pulse operation, (as opposed to presence). Congurations are as follows:

DIPSWITCH 3:

OFF= FAIL-SECURE MODE Relay is NOT energized when power is applied. Relay is energized upon detection only. In this mode, the NO

circuit is open, and the NC circuit is closed. Thus, if a closed circuit is required upon detection, one must use the NO and COM terminals

since they would close upon detection. When the Matrix is NOT powered, it is in the same state as it would be for non-detection.

ON = FAIL-SAFE MODE Relay is energized as soon as power is applied and de-energizes upon detection or power loss. In this mode, upon

powering the detector, the NO circuit becomes closed, and the NC circuit becomes open. Thus, if a closed circuit is required upon detection,
one must use the NC and COM terminals, since they would now be OPEN during non-detection, and would close upon detection. When the

Matrix is NOT powered, it is in the same state as it would be for detection.

7 Programming (cont’d)

entryB

Pulseon exit

A

Pulse onexitB

Dual Loop Configuration A

RelayB

(DirectionalA-> B mode)

Pulse on entry A

Pulseonentry

Relay B

(Non-Directional)

LoopA

LoopB

Relay A

Pulse on entry A

Pulse on

B

Pulseonexit

A

PulseonexitB

Loop

A

LoopB

Dual LoopConfiguration B

LoopA

LoopB

Relay A

PulseonentryB PulseonexitB

Pulse on entry A

Pulse onexit

A

Relay B

(Non-Directional)

PulseonentryB

Pulse

onexitB

Pulse on entry A

Pulse onexit

A

RelayB

(DirectionalA-> B mode)

Loop

A

LoopB

IV. DIPSWITCHES
A. After each dipswitch change the sensor launches a learning process.

DIPSWITCH LEARNING PROCESS

#1 Frequency Adjustments of Loop A (see ADJUSTMENTS)
#2 Frequency Adjustments of Loop A (with single loop) or Loop B (with Dual Loops)
#3 Relay conguration: Active (Fail-Secure) or Passive (Fail-Safe)(See Programming Step III.)
#4 Automatic Sensitivity Boost (ASB option) [recommended for improved truck detection] :

#5 Relay A Function: Presence or Pulse (not used with dual loop in combined mode)
#6

During a detection, the sensitivity increases automatically to 8 times the preset sensitivity given by the sensitivity

potentiometer adjustment. It is limited to the maximum sensitivity ( f = 0.005%). It goes back to the preset value after

detection stops.

Relay A Pulse type: Entry or Exit (used only at pulse function)
or Relay B Mode (with dual loop in combined mode) (see drawing on next page)

• Non-Directional: Relay B provides a pulse according to the dip switches #7 and #8 setting.

• Directional A B: Relay B provides a pulse only if loop A is detecting before loop B. The logic detection takes place

according to dip switches #7 and #8.
WARNING: DURING THE DETECTION, THE 2 LOOPS HAVE TO DETECT SIMULTANEOUSLY FOR A SHORT

PERIOD TO BE ABLE TO DETERMINE THE MOVEMENT DIRECTION. DURING LOOP INSTALLATION
MAKE SURE THE 2 LOOPS ARE CLOSE ENOUGH TO EACH OTHER TO ENSURE A COMMON
DETECTION (TYPICAL 3 FEET).

Δ

#7 Relay B Function: Presence or Pulse - or -

Loop Selection for Relay B Pulse: Pulse on Loop B or Pulse on Loop A (used with dual loop in combined mode)
#8 Relay B Pulse Type: Entry or Exit (used only at pulse function)
#9 Pulse Duration for Both Relays (used only at pulse function): 100 ms or 500 ms

#10 Dual Loop Mode: Independent or Combined A B (not used with single loop)

8 Adjustments

FREQUECY ADJUSTMENT FOR LOOP A FOR SINGLE LOOP DETECTOR

LOOP FREQUENCY DIPSWITCH #1 DIPSWITCH #2

HIGH Off Off

MID HIGH (High - 20%) On Off

MID LOW (High - 25%) Off On

LOW (High - 30%) On On

Page 4 of 5 75.1046.04 EN 20080505