NJRC NJL23H367A Infrared remote control receiver Datasheet

NJL21H/21V/22H/23H/24H000A
INFRARED REMOTE CONTROL RECEIVER
GENERAL DESCRIPTION
The NJL21H/21V/22H/23H/24H000A series are small and high performance receiving devices for infrared
remote control system. They can operate under low and wide supply voltage (2.7V to 5.5V) with enhanced
immunity against the disturbance light.
FEATURES
1. Wide and low supply voltage 2.7V to 5.5V
2. Low supply current
0.43mA typ. Vcc=3.3V
3. Mold type and metal case type to meet the design of front panel.
4. Line-up for various center carrier frequencies.
APPLICATIONS
1. AV instruments such as Audio, TV, VCR, CD, MD, DVD, STB etc.
2. Home application such as Air-conditioner, Fan etc.
3. Game machine, toy etc.
LINE-UP
Mold type
View
Height
Carrier
Frequency
Fo= 36
kHz
36.7 kHz
38 kHz
40 kHz
Top
Top
Side
5.4mm
5.4mm
6.3mm
NJL21H360AF3
NJL21H367AF3
NJL21H380AF3
NJL21H400AF3
NJL21V360A
NJL21V367A
NJL21V380A
NJL21V400A
NJL21H360A
NJL21H367A
NJL21H380A
NJL21H400A
Metal Case type
View
Top
Height
Carrier
5.7mm
8mm
11mm
Frequency
Fo= 36
kHz
NJL21H360A-M NJL22H360A NJL23H360A
36.7 kHz
NJL21H367A-M NJL22H367A NJL23H367A
38 kHz
NJL21H380A-M NJL22H380A NJL23H380A
40 kHz
NJL21H400A-M NJL22H400A NJL23H400A
Regarding other frequency or packages, please contact to New JRC individually.
Side
15mm
6.3mm
NJL24H360A
NJL24H367A
NJL24H380A
NJL24H400A
NJL21V360A-M
NJL21V367A-M
NJL21V380A-M
NJL21V400A-M
BLOCK DIAGRAM
Vcc
Head Amp
2nd Amp
Comparator
3rd Amp
22K
Vout
B.P.F.
Detector
PD
ABLC
GND
NJL21H/21V/22H/23H/24H000A
ABSOLUTE MAXIMUM RATINGS (Ta=25°C)
PARAMETER
Supply Voltage
Operating Temperature Range
Storage Temperature Range
Soldering Temperature
SYMBOL
Vcc
Topr
Tstg
Tsol
RATINGS
6.3
-30 to +85
-40 to +85
260 (5sec. 4.0mm from mold body)
UNIT
V
°C
°C
°C
RECOMMENDED OPERATING CONDITION
Supply Voltage Range
Vcc
2.7 V to 5.5V
ELECTRO-OPTICAL CHARACTERISTICS (Vcc=3.3V, Ta=25°C)
PARAMETER
Supply Current
Transmission Distance
Directivity
Output Voltage Low
Output Voltage High
Low Level Pulse Width
High Level Pulse Width
Center carrier Frequency
SYMBOL
Icc
Lc
θL
θV
VL
VH
TwL
TwH
fo
TEST CONDITION
No Signal Input
Direction of Ray Axis *1
Angle of half Lc, Horizontal *2 *3
Angle of half Lc, Vertical *2 *3
No Load
No Load
See Test Circuit
See Test Circuit
See Line-up
MIN
TYP
—
0.43
13
18
45
30
0.2
—
—
—
2.8
400
350
—
—
—
—
*3
MAX
0.56
—
—
—
0.5
—
850
800
—
UNIT
mA
m
deg
deg
V
V
µs
µs
kHz
Note *1:Test with each center carrier frequency under the test condition shown below.
*2:Place major axis of elliptic lens in horizontal direction and minor vertical.
*3:Four types of frequency :36.0, 36.7, 38.0, 40.0KHz
TEST METHOD
Test condition is as follows:
(1) Standard transmitter:
Transmitting waveform is shown in Fig.1
Transmitting power should be adjusted
so that output voltage Vout will be
400mVp-p.(Test circuit is shown in Fig.2)
Regarding IR LED used for transmitter,
λp=940nm, ∆λ=50nm.
Regarding photo diode,
Sensitivity
S=26nA/Lx
in case light source temperature2856°K,
Ee=100Lx, VR=5V
Carrier frequency is adjusted to
center frequency of each product
IR TRANSMITTER
OUTPUT WAVE FORM
600us
600us
VH
OUTPUT PULSE
TWL
TWH
OF DEVICE
VL
Fig.1 TRANSMITTER WAVE FORM
NJL21H/21V/22H/23H/24H000A
(2) Test system: Shown in Fig.3.
20cm
SENSING DISTANCE : L
10K
Vcc
4.9 to 5.1V
+
-
OUT
Vout
STANDARD
Vout
100K
GND
TRANSMITTER
Fig.2 STD.TRANSMITTER TEST CIRCUIT
Fig.3 TEST SYSTEM
TYPICAL CHARACTERISTICS
Directivity
(Ta=25°C)
Spectral Response
(Ta=25°C )
Relative Transmission Distance
Relative Responsibirity
1.0
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
600
700
800
900
1000
1.0
0.9
0.8
0.7
0.6
0.5
0.4
Vertical
Horizontal
0.3
0.2
0.1
-60 -50 -40 -30 -20 -10 0
1100
Wavelength (nm)
Angle θ (deg)
Horizontal
Relative Transmission Distance
Output Pulse Width TwL (µs)
1000
900
800
700
600
500
400
300
2
4
6
8
10
12
14
Transmission Distance Lc (m)
16
18
Vertical
Transmission Distance vs. Supply Voltage
(Ta=25°C)
Output Pulse Width vs. Distance
(Input Pulse Width=600µs, Vcc=3.3V, Ta=25°C)
0
10 20 30 40 50 60
20
1.2
1.1
1.0
0.9
0.8
0.7
0.6
0.5
2.0
2.5
3.0
3.5
4.0
4.5
Supply Voltage Vcc (V)
5.0
5.5
6.0
NJL21H/21V/22H/23H/24H000A
Transmission Distance vs. Temperature
(Vcc=3.3V)
Transmission Distance vs. Carrier Frequency
(Vcc=3.3V, Ta=25°C)
1.2
Relative Transmission Distance
Relative Transmission Distance
1.0
0.9
0.8
0.7
0.6
0.5
1.1
1.0
0.9
0.8
0.7
0.6
0.5
24 26 28 30 32 34 36 38 40 42 44 46 48 50
-40
-20
Carrier Frequency (kHz)
fo=36kHz
fo=38KHz
fo=40KHz
RECOMMENDED APPLICATION CIRCUIT
1 : OUT
2 : GND
3 : Vcc
47Ω
1 2
3
47uF
0
20
40
60
Ambient temperature Ta(°C)
Vcc
RC Filter should be connected closely between Vcc pin and GND pin.
80
100
NJL21H/21V/22H/23H/24H000A
OUTLINE
5.4
5.4
6.2
2.6
1.6
2.2
4.7
7.3
0.4
1.6
0.5
2.2 3.2
2.5
4.7
7.3
2.6
2.2 3.2
4.0
1.0
2.54 2.54
0.5
1 : OUT
2 : GND
3 : Vcc
2.54 2.54
1 2 3
1 2 3
NJL21H000A
UNIT:mm
2.6
2.2 3.2
1.6
0.4
2.5
4.7
7.3
0.5
1 : OUT
2 : GND
3 : Vcc
NJL21V000A
UNIT:mm
5.4
6.2
2.2 1.0
16.5±0.5
6.2
2.2
1.0
2.54 2.54
13.1
1 : OUT
2 : GND
3 : Vcc
1 2 3
NJL21H000AF3
UNIT:mm
0.4
NJL21H/21V/22H/23H/24H000A
(5.7)
1.9 3.5
4.7
(7.8)
7.6
2.9
6.8
16.5 0.5
1.6
.2
R2
0.5
0.4
2.5
2.54
2.54
1
2
1.0
1 : OUT
2 : GND
3 : Vcc
3
(3.8)
.8
R2
(3.2)
NJL21V000A-M
UNIT:mm
(5.7)
6.8
(10.8)
4.7
(7.8)
7.6
2.9
1.9 3.5
.2
R2
0.5
4.0
2.54
2.54
1 : OUT
2 : GND
3 : Vcc
0.9
10.8
(3.8)
.8
R2
3- 0.8
1
2
3
2.54
2.54
PCB pattern
NJL21H000A-M
UNIT:mm
NJL21H/21V/22H/23H/24H000A
11.0
8.0
2.54 2.54
0.3
3.5
2.0
(12.6)
8.2
2.0
1 2 3
2.54
3-
2.54
0.5
2.0
φ 0.8
1.3
PCB Pattern
NJL22H000A
UNIT:mm
1 2 3
2.54 2.54
6.7
6.7
2.5
8.2
0.5
1.3
1 : OUT
2 : GND
3 : Vcc
2.5
0.3
(9.6)
3.5
9.1
10.2
2.0
1 : OUT
2 : GND
3 : Vcc
0.4
2.54
8.0
3.5
3.0
10.2
8.0
2.54
1.9
7.0
3.5
0.4
6.1
3.0
1.9
7.0
3-
φ 0.8
PCB Pattern
NJL23H000A
UNIT:mm
15.0
1.9
3.5
13.1
3.5
1 : OUT
2 : GND
3 : Vcc
(16.6)
8.2
2.0
6.7
2.5
0.3
0.4
2.54 2.54
2.0
10.2
8.0
3.0
7.0
0.5
2.54 2.54
3-
PCB Pattern
1.3
1 2 3
NJL24H000A
UNIT:mm
φ 0.8
1. Tolerance is ±0.3mm unless otherwise noted.
2. Ground metal case on PCB. Metal case is not
connected to GND pin inside.Tolerance is ±0.3mm
unless otherwise noted.
[CAUTION]
The specifications on this databook are only
given for information , without any guarantee
as regards either mistakes or omissions. The
application circuits in this databook are
described only to show representative usages
of the product and not intended for the
guarantee or permission of any right including
the industrial rights.
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