MICROSEMI SM14LCV1.7C

TITE
SM14LV1.7C TVSarray™
SCOTTSDALE DIVISION
WWW . Microsemi .C OM
T I T E Clamp™ T V S S E R I E S
FEATURES
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LAMP
ULTRA LOW CLAMP FOR SENSITIVE I/O PORTS
Clamps voltage to 1.7V max above signal level
Operates over range from 3V through 30V
Protects 10 lines uni and bi-directional to voltage bus
UL 94V-O Flammability Classification
APPLICATIONS
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SO-14 Package
RS-232-B
RS-422-A
RS-423-A
RS-485
MAXIMUM RATINGS
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Operating Temperature: -55°C to +50°C
Storage Temperature: -55°C to +125°C
Forward Surge Current: 8A (6/70µs)
Minimum Reverse Breakdown Voltage ( VBR): 35V
Working Peak Reverse Voltage VRWM to 30V
Continuous forward current, IF: 400mA
Power dissipation, (PD): 500mW
Derating factor: 4.0 mW/°C
Device Pin Out Configuration
MECHANICAL
PACKAGING
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Tape & Reel per EIA Standard 481
2,500 pieces per 13 inch reel (STANDARD)
Carrier tube 50 pcs (OPTIONAL)
Molded SOIC 14 PIN Surface Mount
Weight 2.5 grams (approximate)
Marking: Logo, Date Code
Pin 1 defined by dot
ELECTRICAL CHARACTERISTICS PER LINE @ 25°C Unless otherwise specified
PART
NUMBER
SM14LCV1.7C
DEVICE
MARKING
LV1.7C
VBR
@100µA
VRWM
VOLTS
VOLTS
IR
+50°c
IR
+25°c
MIN
MAX
MAX
35
30
200*
A
@VR
30
CAP
@ 3V
CAP
@10V
A
@VR
pF
pF
MAX
TYP
TYP
500*
20
45
30
CAP
@15V
VF
@ IF
100mA
VF(surge)
@ IPP = 8 A
6/70 µs
pF
VOLTS
VOLTS
TYP
MAX
MAX
27
0.5
1.70
* These values of leakage current IR represent multiple diodes as a result of their common anode or cathode connections.
DIM
A
B
C
E
F
G
H
J
K
Copyright  2001
MSCXXXX.PDF 9-20-2004 REV J
INCHES
MIN
MAX
0.336
0.344
0.150
0.158
0.228
0.244
0.011
0.021
0.004
0.010
0.053
0.069
0.006
0.010
0.189
0.206
0.016
0.050
MILLIMETERS
MIN
MAX
8.53
8.74
3.81
4.01
5.79
6.19
0.28
0.53
0.10
0.20
1.35
1.75
0.15
0.25
4.80
5.23
0.41
1.27
Microsemi
Scottsdale Division
8700 E. Thomas Rd. PO Box 1390, Scottsdale, AZ 85252 USA, (480) 941-6300, Fax: (480) 947-1503
SM14LV1.7C
OUTLINE
TITE
LAMP
SM14LV1.7C TVSarray™
SCOTTSDALE DIVISION
The SM14LV1.7C TITEClamp TVSarray is a 10 wire protector designed for clamping voltage spikes to lowest possible levels
between the signal line and the Vcc supply or ground. This device incorporates Microsemi's proprietary "Self Programmable"
feature that provides exceedingly tight clamping of only 1.7V maximum above signal line voltages ranging from 3.0V up
through 30V. Destructive over-current is diverted through the plus and minus Vcc rails or ground for negative transients.
One size fits all
Downsizing of on chip components to sub-micron dimensions has improved performance, reduced component size and
cost at the expense of lower failure voltage thresholds. The demand has surfaced for improved protection across data
lines in highly automated manufacturing, monitoring and control systems. These environments are usually harsh and subject
to conducted and induced transient voltages originating from sources including motors, solenoids and welders.
WWW . Microsemi .C OM
Application Notes For Using The SM14LV1.7C
TITEClampTM TVSarrayTM
The connection points are shown in figure 1. Pins 1 and 14 are connected to +Vcc, with pins 7 & 8 being either -Vcc or
ground. The lines are spread out for purposes of illustrating the connections; however, the traces between signal lines and
the TVS should be at an absolute minimum to reduce parasitic reluctance which causes overshoot per Faraday's laws of
induction, V=L(di/dt). In figure 2, the segment for a single wire is detailed for improved illustration. A scaled illustration of
clamping on a 12V signal line example is shown in figure 3. This depicts a small but acceptable rise in voltage above the
signal during worse case transient conditions.
+ Vcc
2
4
1
Clamp Level
To
Signal
Line
3
5
V
12 V
Signal Voltage
1.7V Max
+ VCC
1
14
2
13
3
4
7
9
6
12
TITE
LAMP
- Vcc or Gnd
t
11
5
10
6
9
7
8
- VCC
or Gnd
Single Line Detail
Figure 2.
Clamp Performance
Figure 3.
8
10
Figure 1.
Precautions in component placement and board layout:
1. Place the SM14LV1.7C directly at the board/signal line interface.
2. Keep all traces short for both signal lines and Vcc (and ground if applicable).
3. Eliminate ground loops.
If the reader has further technical questions, please contact Microsemi-Scottsdale applications engineering at 480-941-6433 or 480-941-6524.
Copyright  2001
MSCXXXX.PDF 9-20-2004 REV J
Microsemi
Scottsdale Division
8700 E. Thomas Rd. PO Box 1390, Scottsdale, AZ 85252 USA, (480) 941-6300, Fax: (480) 947-1503
SM14LV1.7C
Line Installation