TTP112-ADA [TTELEC]
CONTINUOUS TOUCH DIMMER FOR DC LED LIGHTING;型号: | TTP112-ADA |
厂家: | TT Electronics |
描述: | CONTINUOUS TOUCH DIMMER FOR DC LED LIGHTING |
文件: | 总12页 (文件大小:149K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Preliminary
Patent No.:
M371298 (Taiwan)
ZL 2010 2 0300629.5 (CHINA)
TTP112
CONTINUOUS TOUCH DIMMER
FOR DC LED LIGHTING
GENERAL DESCRIPTION
The TTP112 is a continuous touch detector IC for the DC LED lightings. The dimmer function
controls by PWM output. The PWM duty range is 3% ~98% that is the lighting dimmer as 3% ~98%.
It has high frequency and small adjusts duty rate, which can let the LED lighting dim smoothly.
FEATURES
Operating voltage 4.5V ~6.8V
Operating current < 1.2mA @VDD=5.0V, no load
Support two output mode : (1) PWM Dim Mode, (2) Direct/Toggel Mode.
Small adjusts duty rate 0.2%.
Support two dimmer speeding as 6 sec and 12 sec lightness circulation.
PWM output control NMOS or Direct output mode.
Memorize turn on.
Two turn off modes: delay off and non-delay off
Two input dimmer modes: touch plate and switch
Two dimmer mode Cycle and Non-Cycle
Support Touch Direct Mode Function
The application circuit is simple and easy.
Can use wire to connect the IC to touch plate.
APPLICATION
DC LED LAMP
For PWM control output
Direct/Toggle Mode output
12’/07/12
Page 1 of 12
Ver 1.0
Reference Only
Preliminary
Patent No.:
M371298 (Taiwan)
ZL 2010 2 0300629.5 (CHINA)
TTP112
BLOCK DIAGRAM
System
SCK
oscillator
Timing counter
AT
Sensor
oscillator
TSCK
Output
PWM
circuit
TI
CI
ISEN
BU
Sensor
VCHK
VCO
VIO
VCHK
SEL
NSSEL
TSSEL
OPT1
OPT2
Option
control
Touch decting
control
PAD DESCRIPTION
Pad No. Pad Name I/O Type
Pad Description
1
2
3
SCK
TSCK
SEL
I
I
System clock input pin
Sensor clock input pin
I-PL Mode selection :
PWM Mode : 0(Default) => non-delay off, 1=>delay off
Direct/Toggle Mode : 0(Default) => non-MOT, 1=>MOT 80sec
Positive power supply
4
5
VDD
NSSEL
P
I-PL PWM Dimmer speed mode selection (6sec/12sec):
0(Default) => normal speed(6sec/cycle),
1=> slow speed(12sec/cycle)
Direct/Toggle Mode : 0(Default) =>Direct , 1=>Toggle
6
7
8
VCHK
TI
I_PL Low voltage detect
I
I
O
Touch input/ Switch input
Sensor control input
Test out
CI
9
VIO
TSSEL
VSS
ISEN
10
11
12
I-PH Function setting input pin.
Negative power supply, ground
P
I-PH Sensitivity adjustment of release
1(Default)=> more sensitive, 0 => more insensitive
13
14
15
16
BU
AT
OPT1
OPT2
O
O
Output pin to Buzzer
Output pin control NMOS active high
I-PH Function setting input pin.
I-PH Function setting input pin.
Pin Type
I
CMOS input only
O
CMOS output
I-PH
I-PL
P
CMOS input and pull-high resister
CMOS input and pull-low resister
Power / Ground
12’/07/12
Page 2 of 12
Ver 1.0
Reference Only
Preliminary
Patent No.:
M371298 (Taiwan)
ZL 2010 2 0300629.5 (CHINA)
TTP112
ELECTRICAL CHARACTERISTICS
‧Absolute Maximum Ratings
Parameter
Operating Temperature
Storage Temperature
Power Supply Voltage
Input Voltage
Symbol
Conditions
─
Value
-20 ~ +70
-50 ~ +125
VSS-0.3 ~ VSS+5.5
VSS-0.3 ~ VDD+0.3
Unit
℃
℃
V
TOP
TSTG
VDD
VIN
─
Ta=25°C
Ta=25°C
V
Note:VSS symbolizes for system ground
‧DC/AC Characteristics:(Test condition at room temperature=25℃)
Parameter
Symbol
VDD
Test Condition
Min. Typ. Max. Unit
Operating Voltage
4.5
-
5.0
6.8
-
V
System oscillator
Sensor oscillator
Operating Current
Fosc
Tosc
1.2M
2.0M
Hz
VDD=5.0V, R_CK=100KΩ
VDD=5.0V, R_TCK=68KΩ
IOP VDD=5.0V ,
Touch Mode
-
600 1200
No load
Switch mode
250
500
R_CK=100KΩ
uA
R_TCK=68KΩ
Input Ports
Input Ports
VIL Input Low Voltage
VIH Input High Voltage
0
0.8
-
-
-
0.2 VDD
1.0 VDD
Output Port Sink Current
IOL VDD=5.0V, VOL=0.5V
Pin : PWM, BUZZER
IOH VDD=5.0V, VOH=VDD-0.5V
Pin : PWM, BUZZER
25
-
mA
mA
ohm
Output Port Source Current
Input Pin Pull-low Resistor
-
8
-
RPL VDD=5.0V,
130K
300K
139K
Pin : NSSEL, SEL,VCHK
Input Pin Pull-high Resistor RPH VDD=5.0V,
Pin : TI
VDD=5.0V,
ohm
Pin : TSSEL, SEN,OPT1,OPT2
12’/07/12
Page 3 of 12
Ver 1.0
Reference Only
Preliminary
Patent No.:
M371298 (Taiwan)
ZL 2010 2 0300629.5 (CHINA)
TTP112
FUNCTION DESCRIPTION
1. Support Three kinds of package item :
TTP112-ADA : PWM Dim Cycle Mode, DIP-14.
TTP112-BOB : PWM Dim Cycle Mode, SOP-16.
TTP112-CDA : Direct Mode with Active High, DIP-14.
TTP112-DOB : Direct Mode with Active High, SOP-16.
TTP112-EOB : PWM Dim/ Direct Mode, Toggle Mode , SOP-16.
2. TTP112 : PWM Dim Mode Function
(1). Touch (switch) mode
a. Short touch(switch) input mode (light on/off)
- In normal speed (NSSEL=0): when touch time is less then 0.3 second.
- In slow speed (NSSEL=1): when touch time is less then 0.6 second.
b. Long touch(switch) mode (continuous dimming)
- In normal speed (NSSEL=0): when touch time is more then 0.3 second.
- In slow speed (NSSEL=1): when touch time is more then 0.6 second.
c. In touch mode can auto stop dimming, when dimming over most lightness 4 times then stop
dimming luminance automatically.
(2). Two modes of turn off: non-delay off and delay off by option SEL
a. Non-delay-off mode (SEL=0): If lamp is on, short touch lamp will turn off. Short touch again
lamp will be turn on.
b. Delay-off mode (SEL=1): If lamp is on, short touch will cause the lightness to be dark slowly,
until the lightness become the darkest and keep the lightness, then turn off.
c. The total delay off time is about 18 seconds.
d. During delay off time, the lamp will be turn off immediately when touch again.
(3). Long touch or push switch about buzzer
a. Cycle mode
1. A long touch or push switch will adjust the lightness, during adjusting the lightness. The
lightness will change from bright to dark and from dark to bright continuously. Stopping
long touch or push switch, the lamp will keep the lightness.
2. There is “BI-BI” sound from buzzer when it will approach the highest lightness, and stop
adjusting lightness. It will reach the highest lightness.
3. A lightness cycle of normal speed-dim is about 6 seconds. Slow speed-dim is about 12
seconds.
b. Non-Cycle mode
1. A long touch or push switch will adjust the lightness, when approach the highest lightness
will stop adjusting the lightness. And “BI-BI” sound from buzzer.
2. A long touch or push switch will adjust the lightness, when approach the darkest lightness
will stop adjusting the lightness. Buzzer is soundless.
c. Buzzer frequency is about 4.0KHz.
(4). Memory function
a. When lamp is turned on every time , the lightness is the same as the last turn off lightness. If
the lamp is delay off, the lamp will be turn on with the lightness that the lamp before become
delay off mode.
b. When AC power is supplied at first time, the lamp is turn on with the highest lightness.
12’/07/12
Page 4 of 12
Ver 1.0
Reference Only
Preliminary
Patent No.:
M371298 (Taiwan)
ZL 2010 2 0300629.5 (CHINA)
TTP112
(5).PWM Duty Rate Active High
a. Adjusts rate: 3% ~98% in change rate 0.2%.
Fpwm = Fosc/1072
PWM DIMMING
Note : if Fosc = 1.2MHZ Æ Fpwm=1.2KHz
3. TTP112 : Touch Direct/Toggle Mode Function
(1) Touch Direct output, active High (OPT1=1).
a. Touch detect time is 56ms (typical). There is “BI” sound from buzzer when it detects touch.
b. Touch release detect time is 46ms (typical).
Touch
Release
Ti
Detect time
typ. : 56ms
Detect time
typ. : 46ms
AT
(2) Touch Toggle Mode, initial state Low (OPT1=1).
Touch
Touch
Release
Release
Ti
AT
12’/07/12
Page 5 of 12
Ver 1.0
Reference Only
Preliminary
Patent No.:
M371298 (Taiwan)
ZL 2010 2 0300629.5 (CHINA)
TTP112
4. Mode Function Setting Pin Description
(1) SEL(I_PL) Pin
Mode
PWM Dim
Direct/Toggle
Setting
Function
1
0(initial)
Non-delay Off
1
0(initial)
Non-MOT
Delay Off 18sec
MOT 80sec
(2) NSSEL(I_PL) Pin
Mode
PWM Dim
Direct/Toggle
Setting
Function
1
0(initial)
Normal speed
6sec
1
0(initial)
Direct
Slow Speed
12sec
Toggle
(3) TSSEL(I_PH) Pin
Mode
PWM Dim
Direct/Toggle
Setting
Function
1(initial)
Touch
0
1(initial)
Touch
0
-
Switch
(4) OPT1(I_PH) Pin
Mode
PWM Dim
Direct/Toggle
Setting
Function
1(initial)
Cycle
0
1(initial)
Active High
0
Non-Cycle
Active Low-
(5) OPT2(I_PH) Pin
Setting
Function
1(initial)
Touch/Switch Mode
0
Direct/Toggle Mode
Note : SEL, NSSEL(Pull Low): 1(Short to VDD) , 0(default).
TSSEL, OPT1, OPT2 Pull Low): 1(default), 0(Short to VSS).
MOT: Maximum on time 80 sec (TYP.).
Delay Off 18sec (TYP.)
Normal speed 6sec (TYP.), Slow Speed 12sec (TYP.).
12’/07/12
Page 6 of 12
Ver 1.0
Reference Only
Preliminary
Patent No.:
M371298 (Taiwan)
ZL 2010 2 0300629.5 (CHINA)
TTP112
APPLICATION CIRCUIT
TTP112-ADA Application
Note : RI, CI, R_TCK, R_TI VALUE Ref. Touch Plate(maybe modify)
LED
R0
Led Power
Adaptor
AC
110V/60Hz
220V/50V
Power
12V
Note : Led Power = 12V
Led Power = 24V
R1 = 2K
R1 = 4.7K
NMOS
AT
SCK
1
2
3
4
5
6
7
14
13
12
11
10
M2
BU
TSCK
5.1V
ZD2
SW4
+
SEL
ISEN
VSS
C3
0.1UF
C4
10UF
SW1
SW2
BUZZER
VDD
NSSEL
SW3
TSSEL
VCHK
TI
VIO
CI
2M
RI
9
No. Name
Value
No. Name
Value
ZD 3.3V
VDD=5V
2Kohm@12V
8
ZD1
R1
R2
1
11
C4
D1
10uF/16V
1N4148
+
4.7Kohm@24V
2.2UF
2
3
12
13
14
15
16
17
18
19
20
1K
100K
68K
CI
D1
D2
R_CK
R_TCK
RI
D2
1N4148
3.3V
1N4148
1N4148
4
ZD1
2M
5.1V
5
6
ZD2
Buzzer
NMOS
--
R_TI
3K
4.0KHZ
Touch Plate
2.2uF
1000pF/1KV
7
CI
ref LED
1000pF/1KV 1000pF/1KV
8
C1
C2
9
1000pF/1KV
0.1uF
--
--
10
C3
TTP112-BOB Application
Note : RI, CI, R_TCK, R_TI VALUE Ref. Touch Plate(maybe modify)
LED
R0
Led Power
Adaptor
AC
110V/60Hz
220V/50V
Power
12V
NMOS
M2
Note : Led Power = 12V
Led Power = 24V
R1 = 2K
R1 = 4.7K
NC
SCK
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
NC
AT
TSCK
SEL
BU
SW4
SW3
SW1
SW2
ISEN
5.1V
ZD2
+
VDD
C3
0.1UF
C4
10UF
VSS
BUZZER
NSSEL
VCHK
TSSEL
VIO
CI
TI
2M
RI
No. Name
Value
No. Name
Value
TTP112B
ZD 3.3V
VDD=5V
2Kohm@12V
ZD1
R1
R2
1
11
C4
D1
10uF/16V
1N4148
+
4.7Kohm@24V
2.2UF
2
3
12
13
14
15
16
17
18
19
20
1K
CI
D1
D2
100K
R_CK
D2
1N4148
1N4148
1N4148
4
68K
2M
ZD1
R_TCK
3.3V
5.1V
5
6
RI
ZD2
R_TI
3K
Buzzer
4.0KHZ
ref LED
Touch Plate
2.2uF
NMOS
7
CI
1000pF/1KV 1000pF/1KV
1000pF/1KV
8
C1
C2
--
--
--
9
1000pF/1KV
0.1uF
10
C3
12’/07/12
Page 7 of 12
Ver 1.0
Reference Only
Preliminary
Patent No.:
M371298 (Taiwan)
ZL 2010 2 0300629.5 (CHINA)
TTP112
TTP112-CDA Application
Direct Mode
Note : RI, CI, R_TCK, R_TI VALUE Ref. Touch Plate(maybe modify)
LED
Led Power
Adaptor
AC
110V/60Hz
220V/50V
Power
12V
Note : Led Power = 12V
Led Power = 24V
R1 = 2K
R1 = 4.7K
+5V
NMOS
R1
2K
AT
BU
SCK
1
2
3
4
5
6
7
14
13
12
11
10
M2
TSCK
5.1V
C4
SW4
+
SEL
ISEN
VSS
C5
10UF
BUZZER
0.1UF
VDD
ZD2
NSSEL
TSSEL
VCHK
TI
VIO
CI
2M
RI
No. Name
Value
No. Name
Value
10uF/16V
9
2Kohm@12V
R1
R2
ZD 3.3V
VDD=5V
1
11
C4
D1
8
ZD1
4.7Kohm@24V
+
3.3UF
CI
1N4148
2
3
12
13
14
15
16
17
18
19
20
1K
100K
68K
R_CK
R_TCK
RI
D2
1N4148
3.3V
TTP112C
D1
D2
1N4148
1N4148
4
ZD1
2M
5.1V
5
6
ZD2
Buzzer
NMOS
--
R_TI
2K
4.0KHZ
2.2uF
1000pF/1KV
Touch Plate
7
CI
ref LED
1000pF/1KV 1000pF/1KV
8
C1
C2
9
1000pF/1KV
0.1uF
--
--
10
C3
TTP112-DOB Application
Direct Mode
Led Power
Adaptor
AC
110V/60Hz
220V/50V
Power
12V
Note : Led Power = 12V
Led Power = 24V
R1 = 2K
NMOS
R1 = 4.7K
M2
+5V
BUZZER
NC
AT
NC
SCK
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
BU
TSCK
R1
2K
SW4
ISEN
SEL
VDD
VSS
TSSEL
VIO
5.1V
C4
NSSEL
VCHK
+
2M
RI
C5
10UF
0.1UF
ZD2
CI
TI
+
3.3UF
CI
TTP112D
ZD 3.3V
VDD=5V
ZD1
D1
1N4148
Touch Plate
1000pF/1KV 1000pF/1KV
D2
1N4148
Note : RI, CI, R_TCK, R_TI VALUE Ref. Touch Plate(maybe modify)
12’/07/12
Page 8 of 12
Ver 1.0
Reference Only
Preliminary
Patent No.:
M371298 (Taiwan)
ZL 2010 2 0300629.5 (CHINA)
TTP112
TTP112-ADA Application
Note : RI, CI, R_TCK, R_TI VALUE Ref. Touch Plate(maybe modify)
+
C5
LED
Schottky
10UF/50V
Led Power
RS
68uH
L
Adaptor
AC
110V/60Hz
220V/50V
2K
R1
VIN
6
Power
12V
SW
1
2
3
+
GND
DIM
5
SEN
4
Note : Led Power = 12V
Led Power = 24V
R1 = 2K
5.1V
ZD2
TTP932
R1 = 4.7K
AT
SCK
1
2
3
4
14
13
12
11
10
Norminal average output current
Rs(ohm)
0.1
BU
TSCK
1000mA
760mA
667mA
SW4
+
SEL
ISEN
VSS
C3
0.1UF
C4
10UF
0.13
SW1
BUZZER
0.15
VDD
NSSEL
SW3
TSSEL
SW2
ZD1
5
6
7
VCHK
TI
VIO
CI
2M
RI
9
No. Name
Value
No. Name
Value
ZD 3.3V
VDD=5V
2Kohm@12V
8
R1
R2
1
11
C4
D1
10uF/16V
1N4148
+
4.7Kohm@24V
2.2UF
2
3
12
13
14
15
16
17
18
19
20
1K
100K
68K
CI
D1
D2
R_CK
R_TCK
RI
D2
1N4148
3.3V
1N4148
1N4148
4
ZD1
2M
3K
5.1V
5
6
ZD2
Buzzer
NMOS
--
R_TI
4.0KHZ
Touch Plate
2.2uF
7
CI
ref LED
1000pF/1KV 1000pF/1KV
1000pF/1KV
8
C1
C2
9
1000pF/1KV
0.1uF
--
--
10
C3
TTP112-BOB with TTP932 Application
Note : RI, CI, R_TCK, R_TI VALUE Ref. Touch Plate(maybe modify)
+
C5
LED
Schottky
10UF/50V
Led Power
RS
68uH
L
Adaptor
AC
110V/60Hz
220V/50V
Power
12V
+
VIN
6
SW
1
Note : Led Power = 12V
Led Power = 24V
R1 = 2K
GND
R1 = 4.7K
2
5
DIM
3
SEN
4
TTP932
Norminal average output current
Rs(ohm)
0.1
1000mA
760mA
667mA
0.13
0.15
NC
SCK
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
NC
AT
TSCK
SEL
BU
SW4
ISEN
VSS
SW1
5.1V
+
C3
C4
VDD
BUZZER
0.1UF
10UF
SW3
TSSEL
NSSEL
ZD2
SW2
VCHK
TI
VIO
CI
2M
RI
No.
1
Name
Value
No. Name
Value
TTP112B
ZD 3.3V
VDD=5V
2Kohm@12V
ZD1
R1
R2
11
C4
D1
10uF/16V
+
4.7Kohm@24V
2.2UF
1N4148
2
3
4
12
13
14
15
16
17
18
19
20
1K
100K
68K
2M
CI
D1
D2
R_CK
R_TCK
RI
D2
1N4148
3.3V
1N4148
1N4148
ZD1
5.1V
5
6
ZD2
Buzzer
NMOS
--
R_TI
3K
4.0KHZ
ref LED
Touch Plate
2.2uF
7
8
CI
1000pF/1KV
1000pF/1KV
1000pF/1KV
C1
C2
9
1000pF/1KV
0.1uF
--
--
10
C3
12’/07/12
Page 9 of 12
Ver 1.0
Reference Only
Preliminary
Patent No.:
M371298 (Taiwan)
ZL 2010 2 0300629.5 (CHINA)
TTP112
TTP112-EOB Application
Note : RI, CI, R_TCK, R_TI VALUE Ref. Touch Plate(maybe modify)
LED
R0
Led Power
Adaptor
AC
110V/60Hz
220V/50V
Power
12V
NMOS
SW6
SW5
M2
Note : Led Power = 12V
Led Power = 24V
R1 = 2K
R1 = 4.7K
OPT2
SCK
OPT1
AT
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
TSCK
SEL
BU
SW4
ISEN
SW1
SW2
5.1V
ZD2
+
VDD
C3
0.1UF
C4
10UF
VSS
BUZZER
SW3
NSSEL
VCHK
TSSEL
VIO
CI
TI
2M
RI
No. Name
Value
No. Name
Value
TTP112E
ZD 3.3V
VDD=5V
2Kohm@12V
ZD1
R1
R2
1
11
C4
D1
10uF/16V
1N4148
+
4.7Kohm@24V
2.2UF
2
3
12
13
14
15
16
17
18
19
20
1K
CI
D1
D2
100K
R_CK
D2
1N4148
3.3V
1N4148
1N4148
4
68K
2M
ZD1
R_TCK
5.1V
5
6
RI
ZD2
R_TI
3K
Buzzer
4.0KHZ
Touch Plate
2.2uF
NMOS
--
7
CI
ref LED
1000pF/1KV 1000pF/1KV
1000pF/1KV
8
C1
C2
9
1000pF/1KV
0.1uF
--
--
10
C3
TTP112-EOB with TP932 Application
Note : RI, CI, R_TCK, R_TI VALUE Ref. Touch Plate(maybe modify)
+
C5
10UF/50V
LED
Schottky
Led Power
RS
68uH
L
Adaptor
AC
110V/60Hz
220V/50V
Power
12V
VIN
6
SW
GND
DIM
1
2
3
+
5
Note : Led Power = 12V
R1 = 2K
SEN
4
Led Power = 24V
R1 = 4.7K
TTP932
Norminal average output current
Rs(ohm)
0.1
SW6
1000mA
760mA
667mA
0.13
0.15
OPT1
SW5
OPT2
1
16
15
14
13
12
11
10
9
SCK
TSCK
SEL
AT
2
3
4
5
6
7
8
BU
SW4
SW3
ISEN
VSS
TSSEL
SW1
5.1V
ZD2
+
C3
0.1UF
C4
10UF
VDD
BUZZER
NSSEL
SW2
VCHK
TI
VIO
CI
2M
RI
No.
1
Name
Value
No. Name
Value
TTP112E
ZD 3.3V
VDD=5V
2Kohm@12V
ZD1
R1
R2
11
C4
D1
10uF/16V
+
4.7Kohm@24V
2.2UF
1N4148
2
3
4
12
13
14
15
16
17
18
19
20
1K
100K
CI
D1
D2
R_CK
R_TCK
RI
D2
1N4148
3.3V
1N4148
1N4148
68K
ZD1
2M
5.1V
5
6
ZD2
Buzzer
NMOS
--
R_TI
3K
4.0KHZ
Touch Plate
2.2uF
1000pF/1KV
7
8
CI
ref LED
1000pF/1KV
1000pF/1KV
C1
C2
9
1000pF/1KV
0.1uF
--
--
10
C3
12’/07/12
Page 10 of 12
Ver 1.0
Reference Only
Preliminary
Patent No.:
M371298 (Taiwan)
ZL 2010 2 0300629.5 (CHINA)
TTP112
PACKAGE CONFIGURATION:
TTP112-BOB SOP-16
TTP112-EOB SOP-16
TTP112-ADA
DIP-14
TTP112B
Lot No.
TTP112E
Lot No.
TTP112A
Lot No.
TTP112-CDA
DIP-14
TTP112-DOB SOP-16
TTP112D
Lot No.
TTP112C
Lot No.
PACKAGE OUTLINE:
1. TTP112-ADA and TTP112-CDA DIP-14
12’/07/12
Page 11 of 12
Ver 1.0
Reference Only
Preliminary
Patent No.:
M371298 (Taiwan)
ZL 2010 2 0300629.5 (CHINA)
TTP112
2. TTP112-BOB and TTP112-DOB,TTP112-EOB SOP-16
ORDER INFORMATION
1. For TTP112
a. Package form: TTP112-ADA, TTP112-BOB, TTP112-CDA, TTP112-DOB, TTP112-EOB
b. Chip form:
c. Wafer base:
TCP112
---
REVISE HISTORY
1. 2012/07/12
-Original version:V_1.0
12’/07/12
Page 12 of 12
Ver 1.0
Reference Only
相关型号:
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