ACNV260E-300E Avago Technologies US Inc., ACNV260E-300E Datasheet - Page 6
ACNV260E-300E
Manufacturer Part Number
ACNV260E-300E
Description
2mm DTI,Jupiter,type E, Gullwing
Manufacturer
Avago Technologies US Inc.
Datasheet
1.ACNV260E-500E.pdf
(10 pages)
Specifications of ACNV260E-300E
Voltage - Isolation
5000Vrms
Number Of Channels
1, Unidirectional
Current - Output / Channel
50mA
Data Rate
10MBd
Propagation Delay High - Low @ If
55ns @ 10mA
Current - Dc Forward (if)
20mA
Input Type
DC
Output Type
Open Collector
Mounting Type
Surface Mount, Gull Wing
Package / Case
10-SMD, Gull Wing
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Switching Specifications (AC)
Over recommended temperature (T
at T
Package Characteristics
All typicals at T
Notes:
1. Peaking circuits may produce transient input currents up to 50mA, 50ns maximum pulse width, provided average current does not exceed 20mA.
2. By passing of power supply line is required, with a 0.1μF ceramic disc capacitor adjacent to each optocoupler as illustrated in Figure 15. Total lead
3. The t
4. The t
5. t
6. See application section titled “Propagation Delay, Pulse-Width Distortion and Propagation Delay Skew” for more information.
7. The t
8. The t
9. CM
10. CM
11. For sinusoidal voltages, (|dV
12. No external pull up is required for a high logic state on the enable input. If the V
13. Device considered a two-terminal device: pins 1, 2, 3, 4 and 5 shorted together, and pins 6, 7, 8, 9 and 10 shorted together.
14. In accordance with UL1577, each optocoupler is proof tested by applying an insulation test voltage ≥ 6000 V
6
Parameter
Propagation Delay Time to
High Output Level
Propagation Delay Time to
Low Output Level
Pulse Width Distortion
Propagation Delay Skew
Output Rise Time (10%-90%)
Output Fall Time (10%-90%)
Propagation Delay Time of
Enable from V
Propagation Delay Time of
Enable from V
Output High Level Common
Mode Transient Immunity
Output Low Level Common
Mode Transient Immunity
Parameter
Input-Output Insulation
Input-Output Resistance
Input-Output Capacitance
length between both ends of the capacitor and the isolator pins should ot exceed 20mm.
output pulse.
output pulse.
edge of the output pulse.
edge of the output pulse.
performance.
current limit, I
A
PSK
= 25°C, V
H
L
is equal to the worst case difference in t
is the maximum tolerable rate of fall of the common mode voltage to assure that the output will remain in a low logic state (i.e., V
PLH
PHL
ELH
EHL
is the maximum tolerable rate of rise of the common mode voltage to assure that the output will remain in a high logic state (i.e., V
enable propagation delay is measured from the 1.5 V point on the falling edge of the enable input pulse to the 1.5 V point on the rising
enable propagation delay is measured from the 1.5 V point on the rising edge of the enable input pulse to the 1.5 V point on the falling
propagation delay is measured from the 5 mA point on the falling edge of the input pulse to the 1.5 V point on the rising edge of the
propagation delay is measured from the 5 mA point on the rising edge of the input pulse to the 1.5 V point on the falling edge of the
EH
EL
CC
I-O
A
to V
to V
= 25°C.
≤ 5 μA).
= 5V.
EH
EL
CM
| / dt)
Symbol
t
t
|t
t
T
T
t
t
|CM
|CM
Symbol
V
R
C
PLH
PHL
psk
ELH
EHL
r
f
I-O
PHL
ISO
I-O
max
H
L
|
- t
|
= πf
A
PLH
= -40°C to 105°C), V
PHL
CM
|
and/or t
V
Min.
30
35
20
20
Min.
5000
10
CM(p-p).
12
PLH
that will be seen between units at any given temperature and specified test conditions.
Typ.
50
55
5
25
10
30
20
25
25
Typ.
0.5
CC
Max.
80
120
80
120
40
50
Max.
0.6
= 5 V, I
F
Units
ns
ns
ns
ns
ns
ns
ns
ns
kV/μs
kV/μs
Units
V
Ω
pF
= 10mA unless otherwise specified. All typicals are
rms
E
pin is not used, tying V
Test Conditions
T
T
R
C
R
V
R
V
V
V
T
V
V
T
Test Conditions
RH < 50% for 1 min.
T
V
f = 1 MHz, T
A
A
A
A
A
L
L
L
L
EL
EL
CC
O(MIN)
CC
O(MAX)
I-O
= 25°C
= 25°C
= 25°C, V
= 25°C, V
= 25°C
= 350 Ω,
= 15 pF
= 350 Ω, C
= 350 Ω, C
= 0V, V
= 0V, V
= 5 V, I
= 5 V, I
= 500 V
= 2 V, R
= 0.8 V, R
EH
EH
F
F
CM
CM
= 0 mA,
= 10 mA,
A
= 3V
= 3V
L
L
= 25°C
rms
= 15 pF,
= 15 pF,
L
= 1500 V
= 1500 V
E
R
C
= 350 Ω,
to V
L
for one second (leakage detection
L
L
= 350 Ω,
= 350Ω,
= 15 pF
CC
will result in improved CM
Fig.
6, 7, 8 3, 12
6, 7,
8, 9
10
10
11, 12 7
11, 12 8
13
Fig.
O
O
< 0.8 V).
Note
6, 12
5, 6,
12
12
12
9, 11,
12
10, 11,
12
Note
13, 14
13
> 2.0 V).
13
4,12
R
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