OPBA2QD BANNER ENGINEERING, OPBA2QD Datasheet - Page 5

OPBA2QD

Manufacturer Part Number

OPBA2QD

Description

POWER BLOCK

Manufacturer

BANNER ENGINEERING

Datasheets

1.OPBA2QD.pdf (16 pages)

2.OPBA2QD.pdf (12 pages)

Specifications of OPBA2QD

Accessory Type

Power Block

Function

Module, Power Block

Technology

Photoelectric

For Use With

OMNI-BEAM Sensors

Lead Free Status / Rohs Status

RoHS Exempt Product

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D.A.T.A.

Banner's exclusive D.A.T.A. (Display and Trouble Alert) system warns of mar-

ginal sensing conditions usually before a sensing failure occurs. This self-checking

diagnostic system warns of a problem by flashing one or more lights in a multiple-

LED array, and by sending a warning signal to the system logic controller (or

directly to an audible or visual alarm) by way of the OMNI-BEAM's dedicated

alarm output.

The D.A.T.A. lights are located on the top of the sensor head and are viewed through

a transparent LEXAN

When using dc power block models OPBT2, OPBT2QD, or OPBT2QDH, the #3 light will flash if either the load output or the alarm output

becomes shorted. Both outputs will be inhibited, and the circuit will "retry" the outputs every 1/10 second. The outputs will automatically reset

and function normally when the short is corrected.

SENSE and LOAD Indicator LEDs

SENSE

Standard OMNI-BEAM Sensor Heads

LOAD

Moisture Alert:

by condensation or by entry of moisture when the access cover is removed,

will cause the #1 light to flash.

High Temperature Alert:

head exceeds 70 C (+158 F), the #2 light will flash.

Low Voltage or Overload Alert:

that is specified for the power block in use (see power block specifications, pages 12 and 13). Power block outputs are also shut down

to prevent damage to the load(s) from low voltage.

High Gain Warning:

decrease the gain (see photo above). There are two possible conditions:

1) The High Gain Warning alarm will come "on" if the "dark" signal slowly increases to the #4 level and remains at that level for a

predetermined delay time. This condition is commonly caused by an increase (over time) of unwanted background reflections when

using reflective sensing modes, such as diffuse (proximity) and convergent beam. The alarm will reset as soon as the cause of the

unwanted light signal is removed, or if the GAIN control setting is reduced to bring the "dark" condition below the #4 level.

2) The High Gain Warning alarm will latch "on" if the "dark" signal does not fall below the #4 level during a sensing event. The alarm

is automatically reset on any subsequent sensing event in which the "dark" sensing level falls below the #4 level. This is accomplished

by reducing the GAIN control setting and/or by removing the cause of the unwanted light return in the "dark" condition.

Low Gain Warning:

increase the gain (see photo, above). There are two possible conditions:

1) The Low Gain Warning alarm will come "on" if the light signal slowly decreases to the #5 level and remains at that level for a

predetermined delay time. This situation most commonly occurs in opposed or retroreflective sensing systems, and is caused by a

decrease in light in the unblocked condition (over time) due to obscured lenses or gradual sensor misalignment. The alarm will reset

as soon as the light signal strength exceeds the #5 level.

2) The Low Gain Warning alarm will latch "on" if the light signal does not exceed the #5 level during a sensing event. The alarm is

automatically reset by any subsequent sensing event in which the "light" signal exceeds the #5 level. This is accomplished by increasing

the GAIN control setting and/or by lens cleaning and sensor realignment.

Low Contrast Warning:

contrast for reliable sensing. This occurs when the "light" condition is at the #5 level and the "dark" condition is at the #4 level for a

sensing event. If this warning occurs, the application should be fully re-evaluated to find ways to increase the differential between the

"light" and "dark" conditions. The Low Contrast alarm is automatically reset by any subsequent sensing event in which the "light"

signal exceeds the #5 level and the "dark" signal falls below the #4 level.

The SENSE LED indicates when a target has been sensed. When the sensor head is programmed for LIGHT operate, it lights when

the sensor receives enough light to exceed the #5 threshold. When programmed for DARK operate, it lights when the received signal

falls below the #5 threshold. The SENSE LED is located at the far left end of the D.A.T.A. array.

The LOAD indicator LED lights whenever the load is energized (after the timing function, if any). The LOAD LED is located at

the far right end of the D.A.T.A. array.

The SENSE and LOAD indicator LED locations are visible in the photograph above.

™

(patent #4965548)

cover. The D.A.T.A. lights are configured as follows:

Severe moisture inside the sensor head, caused

The #10 light will flash if the "light" signal never goes above #5 on the display, and instruct the operator to

The #9 light will flash if the "dark" signal never goes below #4 on the display, and instruct the operator to

The #9 and #10 D.A.T.A. lights will flash simultaneously to indicate that there is not enough optical

When the temperature inside the sensor

Sensor Self-diagnostic System

The number #3 light will flash whenever the sensor supply voltage drops below the minimum

OPBA2QD BANNER ENGINEERING, OPBA2QD Datasheet - Page 5

OPBA2QD

Specifications of OPBA2QD

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