SP100R BANNER ENGINEERING, SP100R Datasheet - Page 15

SP100R

Manufacturer Part Number

SP100R

Description

PHOTO SENSOR RECEIVER

Manufacturer

BANNER ENGINEERING

Datasheet

1.MA3.pdf (20 pages)

Specifications of SP100R

Output Current

150mA

Sensor Output

NPN Open Collector

Supply Voltage Range Dc

10V To 30V

Leaded Process Compatible

Peak Reflow Compatible (260 C)

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MICRO-AMP

MPC3 Miniature Modulated Amplifier for direct PC-board mounting

Model MPC3 is a modulated LED photoelectric amplifier which utilizes custom CMOS

integrated circuitry. It contains all the circuitry necessary to modulate nearly any Light-

Emitting Diode (LED) and to amplify and demodulate the light received by a

phototransistor. The outputs are conventional buffered complementary CMOS gates.

The MPC3 is designed to work with the Banner SP100 series miniature modulated remote

sensors. However, it may be used with nearly any LED and phototransistor pair, as supplied

by most major semiconductor manufacturers. The small size and low cost of the MPC3

permit its use in OEM equipment where conventional photoelectric controls are not

justified, or where non-modulated sensors are now being used. Typical OEM applications

include duplicating machines, semiconductor processing equipment, label sensors, vend-

ing machines, vibratory feeder controls, robotic sensors, and automatic testing equipment.

The MPC3 also contains the patented Banner "AID™" (Alignment Indicator Device)

circuitry, which shows the strength of the received signal in addition to indicating the state

of the outputs. This feature permits easy setup and alignment of the sensors, and also

provides a means for the ultimate user of the equipment to monitor its performance without

test instruments. An LED indicator is added (externally) to utilize the AID circuitry.

Amplifier sensitivity is adjusted with an external potentiometer or fixed resistor. Amplifier

response speed is set at 10 milliseconds. An optional frequency control resistor (R

be used for faster amplifier response.

The circuitry of the MPC3 is totally encapsulated in a high-impact molded polystyrene

housing. It is designed for mounting directly to a printed circuit board. A set of eight

closed-back pin jacks is supplied to allow the MPC3 to plug into the PC board. A battery-

powered demonstration board, model MPC3-DB, is available for evaluation of the MPC3.

MICRO-AMP

SUPPLY VOLTAGE: 5V dc 10% at less than 20 milliamps; 100

millivolts maximum ripple. Voltage must not exceed 6V dc, or be

connected in reverse polarity. Install a 0.1 microfarad capacitor as

close as possible to the supply pins of the MPC3 (across pins #1 and

#3) if voltage transients are anticipated.

OUTPUT CONFIGURATION: the outputs at pins #7 and #8 are

conventional CMOS buffered gates. The output at pin #7 is high in the

DARK condition and low in the LIGHT condition. The output at pin

#8 is low in the DARK condition and high in the LIGHT condition.

Each output will source or sink several milliamps.

CIRCUIT PROTECTION: outputs are short-circuit protected.

They may be shorted to either the positive or negative supply line

without damage. The emitter output at pin #5 is internally current-

limited, and may be grounded indefinitely. The "AID" output at pin

#6 is internally current-limited, and may be connected to the positive

supply indefinitely.

SENSITIVITY ADJUSTMENT: the value of the sensitivity adjust-

ment potentiometer, or of the fixed resistor if sensitivity adjustment is

not anticipated, is 2,000 ohms (2k ). This is the optimum value for

Banner sensors and for most phototransistors of other manufacturers.

In situations where very high gain photodarlingtons or very low gain

phototransistors or photodiodes are being used, Banner can help

determine the best value.

FREQUENCY ADJUSTMENT: the response time of the circuit is

MPC3 Specifications

System

10 milliseconds or 4 oscillator pulses. Since the demodulator is

digital, faster response times are possible by simply increasing the

frequency of the emitter oscillator. This is done by installing a resistor

("Rf" in the hookup diagram) from pin #2 to the positive supply (pin

#1). The value of the resistor is best determined empirically, by

observing the signal at pin #5 (with respect to ground) on an oscillo-

scope. The response time of the MPC3 is equal to the time required

for four pulses, and the repeatability of the response time is the time

for one pulse. The approximate value of Rf is 390k for 5 millisecond

response, and 39k for 1 millisecond response.

An internal emitter oscillator generates 30 microsecond pulses at a rate

of about 400Hz. When the frequency of the emitter oscillator is

increased, the automatic emitter power control reduces the magnitude

of the pulse current to the emitter so that it will not be damaged by the

increased duty cycle. As a result, the excess gain (and the range) of the

sensors will automatically be reduced. For this reason, the MPC3

should be operated at the slowest frequency (response time) that is

consistent with the application requirements.

INDICATOR: a constant current output is provided at pin #6 for a

customer-supplied indicator LED. This current is held to only a few

milliamps in order to minimize power supply requirements. If the

LED that is selected does not appear bright enough, Banner can

suggest or supply high-brightness indicators.

CONSTRUCTION: totally encapsulated circuitry in molded high-

impact polystyrene housing. Closed-end jacks for PC plug-in mount-

ing are included.

OPERATING TEMPERATURE:

-40 to 70 degrees C (-40 to 158 degrees F).

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SP100 Series Sensors

SP100R BANNER ENGINEERING, SP100R Datasheet - Page 15

SP100R

Specifications of SP100R

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