13mm Series
Low Cost, Stainless
Steel Isolated
Pressure Sensors
APPLICATIONS
13C and 13U
Industrial Controls
Hydraulic Controls
Tank Pressure
Transmitter
FEATURES
13C and 13U
Rugged - Isolated
Stainless Steel Package
Reliable
Semiconductor
Technology
13C Compensated Series
Calibrated and
Temperature
Compensated
Voltage or Current
Supply Options
Absolute & Sealed
Gauge Pressures
13U Uncompensated Series
Low Cost Cell Package
Absolute Pressure
0 to 500, 1,000, 2,000 3,000 and
5,000 psi Pressure Sensors
These SenSym ICT 13mm stainless steel devices are
designed for high pressure applications that involve
measurement of hostile media in harsh
environments. This series uses SenSym ICT’s
proven piezoresistive semiconductor sensor chip in
an oil isolated housing with or without an integral
ceramic for temperature compensation and
calibration. This design has proven to be highly
reliable, stable, and accurate.
These sensors feature a weld ring collar and special
back support ring for high cycle life capability as
they are designed for further package integration in
OEM applications. Parts are available with pressure
ranges from 500 through 5,000 psi and can be used
with voltage or current supplies.
Contact your local SenSym ICT representative, the
factory, or go to Sensym ICT’s Web site at
www.sensym-ict.com for additional details.
EQUIVALENT
BASIC CIRCUIT
13mm COMPENSATED SERIES
+IN
+OUT
-OUT
-IN
13mm UNCOMPENSATED SERIES
+IN
6 2
1
+OUT
4
5 3
-OUT
-IN
LOW COST, STAINLESS STEEL ISOLATED PRESSURE SENSORS
SenSym ICT
LOW COST, STAINLESS STEEL ISOLATED PRESSURE SENSORS
SenSym ICT
13mm Compensated Series
PRESSURE SENSOR CHARACTERISTICS
(all devices)
Environmental Specifications
(all devices)
Temperature Ranges
Compensated: 0°C to +82°C
Operating: -40°C to +125°C
Storage:
-40°C to +125°C
Vibration: 10G at 20-2000 Hz
Shock:
100G for 11 msec
Life:
1 Million cycles minimum
Insulation Resistance: 100MΩ at 50 Vdc
13mm
COMPENSATED
SERIES
SPECIFICATION
NOTES
Note 1: Reference Conditions
(unless otherwise noted):
T
A
=25°C
Supply
V
S
=10Vdc±0.01Vdc or
I
S
=1.5mA±0.0015mA.
Note 2: Full-Scale Span is the
algebraic difference
between the output
voltage at full-scale
pressure and the output
at zero pressure. Full-
Scale Span (FSS) is
ratiometric to the supply
voltage.
Note 3: Pressure Non-Linearity is
based on best-fit straight
line from the zero to the
full-scale pressure.
Pressure Hysteresis is the
maximum output
difference at any point
within the operating
pressure range for
increasing and decreasing
pressure.
Note 4: Maximum error band of
the offset voltage or span
over the compensated
temperature range,
relative to the 25°C
reading.
Note 5: Long term stability over a
six month period.
Note 6: Response time for a 0 psi
to Full-Scale Span
pressure step change,
10% to 90% rise time.
Note 7: The maximum pressure
that can be applied
without changing the
transducer’s performance
or accuracy.
Note 8: The maximum pressure
that can be applied to a
transducer without
rupture of either the
sensing element or
transducer case.
Note 9: Common Mode Voltage
as measured from output
to ground.
Maximum Ratings
(all devices)
Voltage Version “K” : Supply Voltage VS = +15 Vdc
Current Version “L” : Supply Current IS = +2.0 mA
PRESSURE RANGE SPECIFICATIONS
SenSym ICT
Part No.
13C 0500P (A,S)
(1,4,5,6) (K,L)
13C 1000P (A,S)
(1,4,5,6) (K,L)
13C 2000P (A,S)
(1,4,5,6) (K,L)
13C 3000P (A,S)
(1,4,5,6) (K,L)
13C 5000P (A,S)
(1,4,5,6) (K,L)
Pressure
Range
0-500 psi
0-1000 psi
0-2000 psi
0-3000 psi
0-5000 psi
Full Scale Span
(2)
98mV to 102mV
98mV to 102mV
98mV to 102mV
98mV to 102mV
148mV to 152mV
Proof
Pressure
(7)
1500 psi
3000 psi
6000 psi
9000 psi
10,000 psi
Burst
Pressure
(8)
2500 psi
5000 psi
10,000 psi
10,000 psi
10,000 psi
PERFORMANCE CHARACTERISTICS
(1)
Characteristic
Zero Pressure Offset
Pressure Non-Linearity
(3)
Pressure Hysteresis
(3)
Repeatability
Temp. Effect on Span
(4)
Temp. Effect on Offset
(4)
Thermal Hysteresis
(0 to 82°C)
Long Term Stability
of Offset & Span
(5)
Response Time
(6)
Common Mode Voltage
(Voltage Version “K”)
(9)
Input Resistance
(Current Version “L”)
Input Resistance
(Voltage Version “K”)
Output Resistance
Min
-2
–
–
–
–
–
–
–
–
.50
2.0
8.0
3.0
Typical
0
±0.1
±0.015
±0.010
±0.5
±0.5
±0.1
±0.1
0.1
1.25
4.5
25
4.5
Max
+2
±0.25
±0.030
±0.030
±1.0
±1.0
±0.3
±0.3
–
2.0
8.0
50
6.0
Units
mV
%FSS
%FSS
%FSS
%FSS
%FSS
%FSS
%FSS
ms
Vdc
kΩ
kΩ
kΩ
13mm Series
PHYSICAL DIMENSIONS
Dimensions in inches (mm)
PACKAGE 1
(See Note)
RING WITH BACK SUPPORT
.39 (9.8)
.325 (8.25)
.230 (5.84)
.60 (15.3)
2.0 (50) NOMEX INSULATED
STRIP CABLE
W/ .100 (2.54) PIN SPACING
(24 AWG EQUIV)
-OUT (A)
+OUT (B)
A
-OUT
IDENTIFIER
-IN (C)
+IN (D)
4X .375 (3.2)
BACK SUPPORT
O-RING GROOVE
(10mm X 1.5mm O-RING
NOT PROVIDED)
TIG WELD
LOCATION
Ø.617 (Ø15.67)
Note:
Non-concentricity effects at the diaphragm weld area may cause runout of up to ±0.006” between the upper and lower portions of
the sensor body. (It is recommended to use a counter bore to mate with this device to allow for this non-concentricity.)
PACKAGE 4
1/8-27 NPT
.650 (16.51)
2.0 (50) NOMEX INSULATED
STRIP CABLE
W/ .100 (2.54) PIN SPACING
(24 AWG EQUIV)
-OUT
IDENTIFIER
.400 (10.16)
1.06 (26.9)
.000
Ø.337 (Ø8.56)
RING I.D.
Ø.497 (12.62)
Ø.417 (10.59)
O-RING GROOVE
.000
.75 (19.1) HEX
-OUT (A)
+OUT (B)
A
Ø.748 (19.00)
-IN (C)
+IN (D)
Ø.469 (Ø11.91)
CKT CAVITY
4X .13 (3.2)
TIG WELD
LOCATION
1/8-27 NPT
Ø.171 (Ø4.34)
13mm Series
PHYSICAL DIMENSIONS (con’t)
Dimensions in inches (mm)
PACKAGE 5
1/4-18 NPT
.720 (18.29)
2.0 (50) NOMEX INSULATED
STRIP CABLE
W/ .100 (2.54) PIN SPACING
(24 AWG EQUIV)
-OUT
IDENTIFIER
.470 (11.94)
1.15 (29.2)
.000
.75 (19.1) HEX
-OUT (A)
+OUT (B)
A
Ø.748 (19.00)
-IN (C)
+IN (D)
Ø.469 (Ø11.91)
CKT CAVITY
4X .13 (3.2)
1/4-18 NPT
TIG WELD
LOCATION
Ø.171 (Ø4.34)
PACKAGE 6
7/16-20 UNF
.575 (14.60)
.99 (25.0)
.325 (8.25)
2.0 (50) NOMEX INSULATED
STRIP CABLE
W/ .100 (2.54) PIN SPACING
(24 AWG EQUIV)
-OUT
IDENTIFIER
.250 (6.35)
.000
.75 (19.1) HEX
-OUT (A)
+OUT (B)
A
Ø.748 (19.00)
-IN (C)
+IN (D)
Ø.469 (Ø11.91)
CKT CAVITY
4X .13 (3.2)
TIG WELD
LOCATION
7-1/6-20 UNF
GLAND PER MS33656
(3-904 O-RING SEAL
NOT PROVIDED)
Ø.171 (Ø4.34)
LOW COST, STAINLESS STEEL ISOLATED PRESSURE SENSORS
SenSym ICT
13mm Uncompensated Series
PRESSURE RANGE SPECIFICATIONS
SenSym ICT
Part No.
13U 0500P A 0 K
13U 1000P A 0 K
13U 2000P A 0 K
13U 3000P A 0 K
13U 5000P A 0 K
Pressure
Range
0-500 psi
0-1000 psi
0-2000 psi
0-3000 psi
0-5000 psi
Full-Scale Span
(2)
Proof
Pressure
(7)
1200 psi
3000 psi
6000 psi
9000 psi
10,000 psi
Burst
Pressure
(8)
2400 psi
5000 psi
10,000 psi
10,000 psi
10,000 psi
175mV to 300mV
175mV to 300mV
175mV to 300mV
175mV to 300mV
290mV to 500mV
13mm
UNCOMPENSATED
SERIES
SPECIFICATION
NOTES
Note 1: Reference Conditions
(unless otherwise noted):
T
A
=25°C
Supply
V
S
=5Vdc±0.01Vdc or
I
S
=1.0 mA±0.0015mA
Note 2: Full-Scale Span is the
algebraic difference
between the output
voltage at full-scale
pressure and the output at
zero pressure. Full-Scale
Span (FSS) is ratiometric to
the supply voltage.
Note 3: Pressure Non-Linearity is
based on best-fit straight
line from the zero to the
full-scale pressure.
Pressure Hysteresis is the
maximum output
difference at any point
within the operating
pressure range for
increasing and decreasing
pressure.
Note 4: The error band resulting
from maximum deviation
of a transducers output
parameter (offset, span, or
resistance) as temperature
is varied from 25°C to
any other temperature
within the specified range
(0 to 82°C). This
parameter is not 100%
tested and is guaranteed
by process design and
tested on a sample basis
only. Temperature
coefficient of span is
evaluated using a constant
current source.
Note 5: Long term stability over a
six month period.
PERFORMANCE CHARACTERISTICS
(1)
Characteristic
Zero Pressure Offset
Pressure Non-Linearity
(3)
Pressure Hysteresis
(3)
Repeatability
Temp. Coefficient of Span
(4)
(0 to 82°C)
Temp. Coefficient of
Resistance
(4)
(0 to 82°C)
Temp. Coefficient of Offset
(4)
(0 to 82°C)
Thermal Hysteresis
(0 to 82°C)
Long Term Stability
of Offset & Span
(5)
Response Time
(6)
Input Resistance
Output Resistance
Min
-7.5
–
–
–
360
2700
–
–
–
–
4.0
4.0
Typical
0
±0.1
±0.015
±0.010
720
3420
30
±0.1
±0.1
0.1
4.75
4.75
Max
+7.5
±0.25
±0.030
±0.030
1260
4500
–
±0.3
±0.3
–
6.0
6.0
Units
mV/V
%FSS
%FSS
%FSS
ppm/°C
ppm/°C
µV/V/°C
%FSS
%FSS
ms
kΩ
kΩ
PHYSICAL DIMENSIONS
Dimensions in inches (mm)
.400 (10.16)
PACKAGE 0
(See Note)
RING AND CELL
.80 (20.3)
PIN NUMBERS
REF. ONLY
6
5
4
1
2
3
.325 (8.25)
.230 5.84)
Ø.337 (Ø8.56)
RING I.D.
Note 6: Response time for a 0 psi
to Full-Scale Span pressure
step change, 10% to 90%
rise time.
Note 7: The maximum pressure
that can be applied
without changing the
transducer’s performance
or accuracy.
Note 8: The maximum pressure
that can be applied to a
transducer without rupture
of either the sensing
element or transducer
case.
Ø.417 (10.59)
.000
TIG WELD
LOCATION
Ø.497 (12.62)
6X Ø.063 (.51) ON
Ø.300 (7.62) PIN CIRCLE
BALL WELD AREA
O-RING GROOVE
(10mm X 1.5mm O-RING
NOT PROVIDED)
Note :
Non-concentricity effects at the diaphragm weld area may cause runout of up to
±0.006” between the upper and lower portions of the sensor body. (It is
recommended to use a counter bore to mate with this device to allow for this
non-concentricity.)
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