SP100R BANNER ENGINEERING, SP100R Datasheet - Page 17

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)

Current page: 17 of 20
Download datasheet (641Kb)

•

Model SP100FF is a fixed-field convergent mode sensor that detects objects

directly by reflection of light from the object's surface. The light is sensed at two

receive points and compared to define a precise limit to the maximum sensing

range. Objects in the background are ignored, regardless of their surface reflectiv-

ity.

This sensing response feature makes the SP100FF an ideal choice for detecting a

part or a surface that is only a small fraction of an inch in front of another surface.

The SP100FF is highly reliable for semiconductor wafer sensing. Wafers of all

reflectivities are sensed without mechanical or system sensitivity adjustment.

Other applications include cut-to-length control, double-thickness detection, and

precision edgeguiding. The SP100FF is an excellent choice for precise position

control (e.g. as a robotic end effector).

The SP100FF works in conjunction with Banner MICRO-AMP modulated ampli-

fier model MA3A or MPC3A. Model MA3A is powered by +10 to 30V dc and uses

a model RS8 socket. Model MPC3A is powered by +5V dc and is designed for

mounting directly onto PC boards.

With a typical excess gain of 100X at the peak signal point (referenced to a 90%

reflectance white test card), the SP100FF has enough optical energy to reliably

sense material of very low reflectivity such as nitride-coated semiconductor

wafers. The typical peak signal point is 0.12 inch from the sensor face. Excess gain

falls off sharply beyond the peak signal point (see excess gain curve, below).

Theory of Operation

The SP100FF uses two photoelements that operate with the modulated amplifier

in a differential mode. The photoelements are mechanically convergent with the

LED light source at two different distances from the sensor face. The inner

photoelement (R1) produces a positive-going pulse which turns the output of the

amplifier "on". The outer photoelement (R2) produces a negative-going pulse that

works to turn the amplifier "off".

A target is sensed whenever the amount of light reaching receiver R1 is equal to or

greater than the amount of light "seen" by R2. The output of the amplifier is cut

off as soon as the amount of light at R2 becomes greater than at R1. The location

of this "crossover point" is dictated by the geometry of the optoelement configu-

ration, and remains the same regardless of the target's reflectivity.

Reflections even from highly-polished mirror-like surfaces are ignored if the

reflections originate from beyond the crossover point. Modulated LED design

offers very high excess gain at the convergent point of R1 (see excess gain curve).

As a result, even objects of very low reflectivity may be sensed.

The rapid fall-off in signal strength over a very short distance (as seen in the excess

gain curve) accounts for the highly repeatable distance-sensing accuracy of the

SP100FF, independent of target surface reflectivity.

MICRO-AMP

Optical design ensures an exact range limit, regardless

of the surface reflectivity of the objects to be sensed

Powerful infrared light source and modulated amp-

lification provide reliable sensing of objects with low

surface reflectivity

Sensor response to background objects is completely

suppressed

Miniature size fits easily into tight areas of machines

Works with special versions of Banner's MICRO-AMP

series of modulated amplifiers

System

SP100FF Fixed-field Sensor

Excess Gain Curve

Conceptual Drawing

SP100R BANNER ENGINEERING, SP100R Datasheet - Page 17

SP100R

Specifications of SP100R

Related parts for SP100R