TENAND LTV-725V

深圳市腾恩科技有限公司
SHENZHEN TENAND TECHNOLOGY CO.,LTD
http://www.tenand.com
!"#$%!&$'%&(
)
*
+,+
&-%
.*
,/
! '0#$'&(
1
+/
.2(-
3,
,++/
.2(-
4
+/
.2(-4
+
,
+/
.2(-4'$
5.++
,"#$$676
5++
,"#78-8
4'++
,"#'7$-$
9! :++
,"#(7;7
" :++
,"#<77$(;8;
1 :++
,"#77;$6(
4 :++
,"#77;6=$(
1++
,"#7;2((
<"# .2(- %4%4'$
深圳市腾恩科技有限公司
SHENZHEN TENAND TECHNOLOGY CO.,LTD
http://www.tenand.com
<
$ 7
$#>
,
,
#
(#(,*/*
/#
#9?,
/)
/
,@*%>,%0#
<"# .2(- %4%4'$
<
( 7
$#>
,
,
#
(#(,*/*
/#
#9?,
/)
/
,@*%>,%0#
<"# .2(- %4%4'$
<
7
<"# .2(- %4%4'$
±
±
!±
"#
"±
!#
"±
!"
<
; 7
&(-°
!
$%
&
'
()*+
*
*
!
$./*+
*
*
$.0*+
*
*
/10*+
*
*
&
'
*
*
*
4
*
2+%
."56
°$
7+%
.56
"
°$
"
°$
&,-
2--
$$%
/.$*+
$
3
&*+
3" 7+%
$#'9$ %##&;A8B
!
)
,
*
,#
$4)
*
,
,,
+?,
,)
*
,
,?,
#
(
*C
)
,#
*
++
,
)
*
#
(#9$4
,
<"# .2(- %4%4'$
<
- 7
&(-°
&,-
2--
*
8
"
*
&9
'
()$%
&
8
8
µ'
*9*
$
$
8
"
*949
:;<
$$%
&
8
8
'
*9"*4&9
$./
0*+
0*
8
8
*
&9
'
&9
/.$
0*+
0*
8
8
*
&9
µ'
&9
&
'
3 $%(
=
$
*+
$$%
(',7 /(
$;'('$/(&7&$7
" " #" !
$(
$./
7%*+
*
&(
(
+$
4 4 4
8
8
×
×
=
&9
'
*9"*
"
*
&9"'
&9
'
8
Ω
$*
5=(;
*949
>;<
$
8
$%.2 ?%@
!
8
;<
((
8
µ
( 8
"
µ
*9"*4&9"'
(
9
Ω4.0
*9"*4&9"'
(
9
Ω
!
× $B
!
<"# .2(- %4%4'$
<
8 7
Fig.1 Forward Current vs.
Ambient Temperature
Fig.2 Collector Power Dissipation vs.
Ambient Temperature
Collector power dissipation Pc (mW)
Forward current IF (mA)
60
50
40
30
20
10
0
-25
0
25
50
75
100
125
350
300
250
200
150
100
50
0
-25
o
75
100
125
Current transfer ratio CTR (%)
5000
o
Forward current (mA)
50
Fig.4 Current Transfer Ratio vs. Forward
Current
100
100 C
o
o
80 C
40 C
o
20 C
o
60 C
10
1
0.5 0.7 0.9 1.1
VCE= 2V
4000
3000
2000
1000
0
0.1
1.3 1.5 1.7 1.9
Forward voltage (V)
1
Fig.6 Relative Current Transfer Ratio
vs. Ambient Temperature
100
3mA
2mA
80
1.5mA
60
1mA
Pc(MAX.)
40
0.7mA
20
IF= 0.5mA
Relative current transfer ratio (%)
1.0
5mA
10
Forward current (mA)
Fig.5 Collector Current vs.
Collector-emitter Voltage
Collector current Ic (mA)
25
Ambient temperature Ta ( C)
Fig.3 Forward Current vs. Forward
Voltage
I F= 1mA
VCE= 2V
0.8
0.6
0.4
0.2
0
0
0
1
2
3
4
5
6
7
Collector-emitter voltage VCE(V)
<"# .2(- %4%4'$
0
o
Ambient temperature Ta ( C)
8
20
40
60
80
100
O
Ambient temperature Ta ( C)
<
2 7
Fig.7 Collector-emitter Saturation Voltage
vs. Ambient Temperature
1000
I F= 20mA
Ic= 100mA
1.18
Collector dark current ICEO (nA)
Collector-emitter saturation voltage
VCE (sat) (V)
1.20
Fig.8 Collector Dark Current vs.
Temperature
1.16
1.14
1.12
1.10
1.08
1.06
1.04
1.02
1.00
100
10
20
40
60
100
80
Ambient temperature Ta ( C)
td
50
tf
10
5
ts
0.1
1
2
10
-10
RL= 1k
100
-15
1
10
100
Frequency f (kHz)
Test Circuit for Frequency Response
Vcc
Input
Output
Input
-5
0.1
Test Circuit for Response Time
RL
100
-20
Load resistance RL (k )
Vcc
80
VCE= 2V
I C= 20mA
0
Voltage gain Av (dB)
Response time ( s)
tr
100
RD
60
Fig.10 Frequency Response
VCE= 2V
I C= 20mA
0.02
40
Ambient temperature Ta ( C)
Fig.9 Response Time vs. Load
Resistance
500
20
O
O
1000
VCE= 200V
10%
Output
RD
RL
Output
90%
td
ts
tr
<"# .2(- %4%4'$
tf
<
6 7
<"# .2(- %4%4'$
<
7 7