Optical Comparator Array

Optical Comparator Array
OPR5011
Features:
•
•
•
•
Precise active area location
Surface mountable
TTL compatible output
Wide supply voltage range
Description:
Each OPR5011 device is a hybrid sensor array that consists of three channels of the OPTEK differential optical
comparator (‘TRI-DOC”) IC. The single chip construction ensures very tight dimensional tolerances between
active areas.
Specifically designed for high-speed/high-resolution encoder applications, the open collector output switches
based on the comparison of the input photodiode’s light current levels. Logarithmic amplification of the input
signals facilitates operation over a wide range of light levels.
The surface-mountable opaque polyimide package shields the photodiodes from stray light and can withstand
multiple exposures to the most demanding soldering conditions, while the gold-plated wraparound contacts
provide exceptional storage and wetting characteristics.
See Application Bulletin 237 for handling instructions.
Applications:
•
•
•
High-speed applications
High-resolution applications
Applications requiring a wide
range of light levels
Ordering Information
Part
Number
Sensor
Differential Optical
OPR5011
Comparator
Differential Optical
OPR5011T
Comparator
Optical
# of
Icc (mA) Hysteresis (%)
Elements Typ / Max
Typical
Optical
Offset (%)
Min / Max
Packaging
3
9 / 20
40.00
-40/+40
Chip Tray
3
9 / 20
40.00
-40/+40
Tape & Reel
NOTE: SEE PAGE 2 FOR APPLICATION CIRCUIT.
Warning: Front
Window is pressure
sensitive. Do not
apply pressure or
high vacuum to
window.
DIMENSIONS ARE IN:
[MILLIMETERS]
INCHES
Pin # Description Pin # Description Pin # Description Pin # Description
1
2
3
4
B - Output
B - Vcc
A + Trim
A -Trim
5
6
7
8
N.C.
A - Output
A - Vcc
Common
9
10
11
12
Z + Trim
Z -Trim
Z - Output
Z - Vcc
13
14
B + Trim
B -Trim
OPTEK reserves the right to make changes at any time in order to improve design and to supply the best product possible.
OPTEK Technology Inc. — 1645 Wallace Drive, Carrollton, Texas 75006
Phone: (972) 323-2200 or (800) 341-4747
FAX: (972) 323-2396 [email protected] www.optekinc.com
Issue D 06/2012
Page 1 of 3
Optical Comparator Array
OPR5011
Application Circuit - OPR5011
Notes:
(1) The 74LS04 is recommended as a means of isolating the “DOC” comparator circuitry from transients induced by inductive and
capacitive loads.
(2) It is recommended that a decoupling capacitor be placed as close as possible to the device.
Block Diagram - OPC8332
OPTEK reserves the right to make changes at any time in order to improve design and to supply the best product possible.
Issue D 06/2012
Page 2 of 3
OPTEK Technology Inc. — 1645 Wallace Drive, Carrollton, Texas 75006
Phone: (972) 323-2200 or (800) 341-4747
FAX: (972) 323-2396 [email protected] www.optekinc.com
Optical Comparator Array
OPR5011
Absolute Maximum Ratings (TA = 25° C unless otherwise noted)
Storage and Operating Temperature
-40° C to +100° C
Supply Voltage
24 V
Output Voltage
24 V
Output Current
14 mA
Power Dissipation
500 mW
(1)
250° C
Solder reflow time within 5°C of peak temperature is 20 to 40 seconds
Electrical Characteristics (TA = 25° C unless otherwise noted)
SYMBOL
ICC
VOL
IOH
PARAMETER
Supply Current
OPT-OFF Optical Offset
fmax
tlh
thl
Notes:
(1)
(2)
(3)
(4)
(5)
(6)
(7)
(4)(7)
(5)
Frequency Response
(6)
Output Rise Time
(6)
Output Fall Time
MAX
UNITS
TEST CONDITIONS
-
9
20
mA
-
0.3
0.4
V
IOL = 14 mA, VCC = 4.5 V
(3)
-
0.1
1
µA
VCC = VO = 20 V
-
40
-
%
VCC = 5 V, IOL = 1 mA
-40
10
+40
%
VCC = 5 V, IOL = 1 mA
-
1
-
MHz
-
1
-
µs
-
300
-
ns
High Level Output Current
OPT-HYS Optical Hysteresis
TYP
(2)
Low Level Output Voltage
(4)(7)
MIN
VCC = 24 V
VCC = 5 V
Solder time less than 5 seconds at temperature extreme.
Pin (+) = 100.0 nW and Pin (-) = 1.0 µW .
Pin (+) = 1.0 µW and Pin (-) = 100.0 nW.
Pin (-) is held at 1.0 µW while Pin (+) is ramped from 0.5 µW to 1.5 µW and back to 0.5 µW.
Pin (+) is modulated from 1.0 µW to 2.0 µW. Pin (-) is modulated from 1.0 µW to 2.0 µW with phase shifted 180° with respect to
Pin (+). Use 100 kΩ trimpot to set the output signal to 50% duty cycle for maximum operating frequency.
Measured between 10% and 90% points.
Optical Hysteresis and Optical Offset are found by placing 1.0 µW of light on the inverting photodiode and ramping the light
intensity of the non-inverting input from 0.5 µW up to 1.5 µW and back down. This will produce two trigger points – an upper trigger
point and lower trigger point. These points are used to calculate the optical hysteresis and offset.
These are defined as:
% Optical Hysteresis = 100 x (P rise - P fall)
P in (-)
% Optical Offset = 100 x (P average - P (-))
P in (-)
Where:
P in (-)
P rise
P fall
P average
= Light level incident upon the “-” photodiode on the IC chip (Pin) (-) = 1.0 µW).
= Value of light power level incident upon the “+” photodiode that his required to switch the digital output when the
light level is an increasing level (rising edge).
= Value of light power level incident upon the “+” photodiode that is required to switch the digital output when the light
level is decreasing level (falling edge).
= (P rise + P fall)
2
OPTEK reserves the right to make changes at any time in order to improve design and to supply the best product possible.
OPTEK Technology Inc. — 1645 Wallace Drive, Carrollton, Texas 75006
Phone: (972) 323-2200 or (800) 341-4747
FAX: (972) 323-2396 [email protected] www.optekinc.com
Issue D 06/2012
Page 3 of 3