UOT MIM-5303J2 Infrared receiver module Datasheet

MIM-5xx3J2
INFRARED RECEIVER MODULE
Description
The MIM-5xx3J2 is miniaturized infrared receivers for
remote control and other applications requiring improved
ambient light rejection.
The separate PIN diode and preamplifier IC are assembled
on a single leadframe.
The epoxy package contains a special IR filter.
This module has excellent performance even in disturbed
ambient light applications and provides protection against
uncontrolled output pulses.
Features
l
Photo detector and preamplifier in one package
l
Internal filter for PCM frequency
l
High immunity against ambient light
l
Improved shielding against electric field disturbance
l
5.0-Volt supply voltage; low power consumption
l
TTL and CMOS compatibility
MIM-5xx3J2 Series Models
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MIM-5303J2 30.0KHz
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MIM-5383J2 38.0KHz
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MIM-5333J2 33.0KHz
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MIM-5403J2 40.0KHz
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MIM-5363J2 36.0KHz
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MIM-5443J2 44.0KHz
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MIM-5373J2 36.7KHz
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MIM-5563J2 56.0KHz
BLOCK DIAGRAM
VS
Input
Oscillator
CGA &
filter
Demodulator
μC
AGC / ATC & digital
control
GND
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Unity Opto Technology Co., Ltd.
12/09/2003
MIM-5xx3J2
INFRARED RECEIVER MODULE
@ Ta=25oC
Absolute Maximum Ratings
Item
Symbol
Ratings
Supply voltage
VCC
-0.3 ~ 6.0
V
Supply Current
Is
5.0
mA
Topr
-25 ~ + 85
o
C
-25 ~ + 85
o
C
260
o
C
Operating temperature
Tstg
Storage temperature
Tsd
Soldering temperature
Unit
Remark
t≦5 s, 1mm from case
Electro-optical characteristics (Vcc=5.0V)
Parameter
Symbol
Min.
Typ.
Max.
Unit
Supply Voltage
Vs
4.5
5.0
5.5
V
Current consumption
Icc
1.4
2.0
mA
Response wavelength
λp
940
Remarks
Under no signal
nm
- - - - - active low output - - - - -
Output form
H level output voltage
V0 h
L level output voltage
V0 l
H level output pulse width
Twh
L level output pulse width
4.2
V
0.5
V
400
800
µs
Twl
400
800
µs
Distance between emitter & detector
L1
10.0
Half angle
∆θ
±45
m
Note 1
deg
Horizonal direction
Test Method
A. Standard Transmitter
600µs
carrier frequency f0
duty 50%
ON/OFF pulse width satisfied from
25 cm to detection limit
600µs
600µs
Fig 1. Burst Wave
25cm
+5.0V
Transmitter
Duty 50%
10kΩ
10kΩ
10µF
Vout
GND
Oscilloscope
Fig 2. Standard Transmitter Measurement circuit
REV: A1
Unity Opto Technology Co., Ltd.
12/09/2003
MIM-5xx3J2
INFRARED RECEIVER MODULE
B. Detection Length Test
θ
Vout
Transmitter output
θ
D.U.T
θ: indicates horizontal and vertical directions
L
C . Pulse Width Test
Transmitter output
600µs 600µs
DUT output pulse
Twl
Twh
V0h
V0l
Application Circuit
100Ω*)
3
MIM-5xx3J2
MIE-544A2
1
4.7μF *)
Vcc (+5V)
>10kΩ
optional
μC
2
GND
*) recommended to suppress power supply disturbances
REV: A1
Unity Opto Technology Co., Ltd.
12/09/2003
INFRARED RECEIVER MODULE
MIM-5xx3J2
Dimensions in mm
REV: A1
Unity Opto Technology Co., Ltd.
12/09/2003
MIM-5xx3J2
INFRARED RECEIVER MODULE
CHARACTERISTIC CURVES (TA=25oC)
Output Pulse Width
Supply Current Icc (mA)
900
1.8
1.6
1.4
1.2
800
700
Burst length * 600µs, cycle =
1.2ms tpw: Average value of
output from start of signal input
to 60th pulse
600
500
1.0
Input Level VIN (mVP-P)
400
3
4
5
6
0.1
7
Supply Voltage Vcc (V)
10
100
1000
INPUT LEVEL vs.OUTPUT PULSE WIDTH
15∘
30∘
1.0
45∘
0.8
60∘
0.6
Relative Spectral Sensitivity
SUPPLY VOLTAGE vs. SUPPLY
CURRENT
0∘
1
Input Level (mVp-p)
1
0.8
0.6
0.4
0.2
75∘
0
750
0.4
0.2
0 0.1
0.3
0.5
RELATIVE TRANIMISSION
850
950
1050
1150
λ - Wavelength (nm)
RELATIVE SPECTRAL SENSITIVITY vs
WAVELENGTH
Rel. Responsitivity
1
0.8
0.6
0.4
f=fo±5%
Δf(3dB) = fo/7
0.2
0
0.7
0.8
0.9
1
1.1
1.2
1.3
f/fo - Relative Frequency
FREQUENCY DEPENDENCE OF
RESPONSIVITY
REV: A1
Unity Opto Technology Co., Ltd.
12/09/2003
INFRARED RECEIVER MODULE
MIM-5xx3J2
Reliability
Test item
High temparature
High temp. & high humi.
Low temparature
Temperature cycle
Dropping
Test condition
o
Ta=+80 C
t=240H
o
Ta=+40 C 90%RH
t=240H
Ta= -10oC Vcc=5.0V
t=240H
o
o
-30 C(0.5H) ~ +80 C(0.5H) 20cycle
Test devices shall be dropped 3 times naturally
onto hard wooden board from a 75cm height position.
Standard
Note 2.
Note 2.
Note 2.
Note 2.
Note 3.
NOTE 1. Distance between emitter & detector specifies maximum distance that output wave form satisfies
the standard under the conditions below against the standerd transmitter.
(1)Measuring place ………Indoor without extreme reflection of light.
(2)Ambient light source… Detecting surface illumination shall be 200±50Lux under ordinary
hite fluorescense lamp of no high frequency lighting.
(3)Standard transmitter … Burst wave indicated in Fig 1. of standard transmitter
shall be arranged to 50mVp-p under the measuring circuit specified in Fig 2.
NOTE 2. (electro-optical charactistics) shall be satisfied after leaving 2 hours in the normal temperature .
NOTE 3. (electro-optical charactistics) shall be satisfied and no conoid deforms
and destructions of appearance .(excepting deforms of terminals)
Inspection standard
1.Among electrical characteristics , total number shall be inspected on items blow.
1-1 front distance between emitter & detector
1-2 Current consumption
1-3 H level output voltage
1-4 L level output voltage
2.Items except above mentioned are not inspected particularly , but shall fully satisfy
CAUTION ( When use and storage of this device )
1.Store and use where there is no force causing transformation or change in quality .
2.Store and use where there is no corrosive gas or sea(salt) breeze .
3.Store and use where there is no extreme humidity .
4.Solder the lead-pin within the condition of ratings. After soldering do not add extra force .
5.Do not wash this device . Wipe the stains of diode side with a soft cloth. You can
use the solvent , ethylalcohol or methylalcohol or isupropylene only .
6.To prevent static electricity damage to the Pre-AMP make sure that the human body
, the soldering iron is connected to ground before using .
7.Put decoupling device between Vcc and GND for reduse the noise from power supply line .
8.The performance of remote-control system depends on environments condition and ability
of periferal parts. Customer should evaluate the performance as total system in those conditions
after system up with components such as commander , micon and this receiver module .
Others
1.This device is not design to endure radiative rays and heavily charged particles .
2.In case where any trouble or questions arise,both parties agress to make full discussion
covering the said problem .
REV: A1
Unity Opto Technology Co., Ltd.
12/09/2003
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