MS4515DO
SPECIFICATIONS
FEATURES
Inches H2O Pressure Ranges
PCB Mountable
Digital Output
Barbed Pressure Ports
APPLICATIONS
Blocked Filter Detection
Altitude and Airspeed Measurements
Medical Instruments
Fire Suppression System
Panel Meter
Air Movement/Environmental Controls
Pneumatic Controls
SENSOR SOLUTIONS /// MS4515DO
PCB Mounted Digital Output Transducer
Combination Temperature and Pressure
Pressure Ranges from 2 to 30 inches H2O
I2C or SPI Protocol
Differential & Gage
Temperature Compensated
3.3 or 5.0 VDC Supply Voltage
Low Power Option Available (standby < 1µA)
The MS4515DO is a small, ceramic based, PCB mounted
pressure transducer from TE Connectivity. The transducer is
built using the latest CMOS sensor conditioning circuitry to create
a low cost, high performance digital output pressure (14bit) and
temperature (11bit) transducer designed to meet the strictest
requirements from OEM customers.
The MS4515DO is fully calibrated and temperature compensated
with a total error band (TEB) of less than 1.0% over the
compensated range. The sensor operates from single supply of
either 3.3 or 5.0VDC and requires a single external component for
proper operation.
The rugged ceramic transducer is available in side port, top port,
and manifold mount and can measure gage or differential
pressure from 2 to 30 inches H2O. The 1/8” barbed pressure ports
mate securely with 3/32” ID tubing.
08/2018
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MS4515DO
STANDARD RANGES (INCHES H2O)
Range
2
4
5
10
20
30
Gage
DS, SS, TP, MM
DS, SS, TP, MM
DS, SS, TP, MM
DS, SS, TP, MM
DS, SS, TP, MM
Differential
DS, SS, TP, MM
DS, SS, TP, MM
DS, SS, TP, MM
DS, SS, TP, MM
DS, SS, TP, MM
DS, SS, TP, MM
Option Availability
-L
-L
-L
-F, -L, -M
-F, -L, -M
-F, -L, -M
See Package Configurations: DS= Dual Side Port, SS= Single Side Port, TP= Top Port, MM= Manifold Mount
Only I2C Protocol is Available on “L” type Pin Styles; Reference Ordering Information for Details
Pin Style “L” is only available SS and MM port types.
Pin Style “C” is only available SS, TP and MM port types.
BLOCK DIAGRAM
SENSOR SOLUTIONS /// MS4515DO
08/2018
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MS4515DO
ABSOLUTE MAXIMUM RATINGS
Parameter
Supply Voltage
Output Current
Storage Temperature
Humidity
Overpressure
Burst Pressure
ESD
Solder Temperature
Conditions
TA = 25 °C
TA = 25°C
TA = 25°C
TA = 25 °C, both Ports
TA = 25 °C, Port 1
HBM
Min
2.7
Max
5.5
3
-40
+125
95
Not to Exceed 300
-4
+4
250°C, 5 sec max.
Unit
V
mA
°C
%RH
psi
psi
kV
Notes
Non Condensing
See Table 1
EN 61000-4-2
TABLE 1: BURST PRESSURE BY RANGE AND PACKAGE STYLE
Style
DS,MM
SS,TP
Port
Port 1
Port 2
Port 1
002
10
10
004
10
10
10
005
10
10
10
010
10
10
10
020
10
10
10
030
20
20
20
Unit
PSI
PSI
PSI
ENVIRONMENTAL SPECIFICATIONS
Parameter
Mechanical Shock
Mechanical Vibration
Thermal Shock
Life
MTTF
SENSOR SOLUTIONS /// MS4515DO
Conditions
Mil Spec 202F, Method 213B, Condition C, 3 Drops
Mil Spec 202F, Method 214A, Condition 1E, 1Hr Each Axis
100 Cycles over Storage Temperature, 30 minute dwell
1 Million FS Cycles
>10Yrs, 70 ºC, 1.188 Million Pressure Cycles, 120%FS Pressure
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MS4515DO
PERFORMANCE SPECIFICATIONS
Supply Voltage1: 5.0V or 3.3 VDC
Reference Temperature: 25°C (unless otherwise specified)
PARAMETERS
Output
Span
MIN
TYP
MAX
51E
3AE0
1EB
3EB
31EA
3333
347A
3852
3998
3AE0
UNITS
NOTES
Count Hex
1,2,3
%Span
1,2,3
Pressure Accuracy
-0.25
0.25
%Span
2
Total Error Band (TEB)
-1.0
1.0
%Span
3,7
TEB (4inH20 and Below)
-2.0
2.0
%Span
3,7
Temperature Accuracy
1.5
ºC
4
Supply Current
3
mA
7
±0.5
%Span
Load Resistance (RL)
kΩ
10
Long Term stability (Offset & Span)
Compensated Temperature
0
+60
ºC
Operating Temperature
-10
+85
ºC
14
bits
11
bits
Output Pressure Resolution
Output Temperature Resolution
Update Time
8
0.5
5
ms
6
Start Time to Data Ready
8.4
ms
6
Weight
3
grams
Media
Non-Corrosive Dry Gases Compatible with Ceramic, Silicon, Borosilicate Glass,
RTV, Gold, Aluminum and Epoxy. See “Wetted Material by Port Designation” chart
below.
Notes
1. Proper operation requires an external capacitor placed as shown in Connection Diagram. Output is not ratiometric to supply voltage.
2. The maximum deviation from a best fit straight line (BFSL) fitted to the output measured over the pressure range at 25C. Includes all
errors due to pressure non linearity, hysteresis, and non-repeatability.
3. Total pressure error band includes all accuracy errors, thermal errors over the compensated temperature range and span and offset
calibration tolerances. For ideal sensor output with respect to input pressure and temperature, reference Transfer Function charts below.
TEB values are valid only at the calibrated supply voltage.
4. The deviation from a best fit straight line (BFSL) fitted to the output measured over the compensated temperature range.
5. For errors beyond the compensated temperature range, see Extended Temperature Multiplier chart below.
6. Start time to data ready is the time to get valid data after POR (power on reset). The time to get subsequent valid data is then specified
by the update time specification.
7. This product can be configured for custom OEM requirements, contact factory for lower power consumption or higher accuracy.
CONNECTION DIAGRAM
Notes
1.
Place 100nF capacitor between Supply and GND to within 2 cm of sensor.
SENSOR SOLUTIONS /// MS4515DO
08/2018
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MS4515DO
PRESSURE AND TEMPERATURE TRANSFER FUNCTION
Sensor Output at Significant Percentages
% of Count
Output Type A (inH20)
0
PMIN-(PMAX-PMIN)*10/80
5
10
PMIN
50
90
PMAX
95
100
PMAX+(PMAX-PMIN)*10/80
Output Type B (inH20)
PMIN-(PMAX-PMIN)*5/90
PMIN
PMAX
PMAX+(PMAX-PMIN)*5/90
Digital Counts (decimal)
0
819
1638
8192
14746
15563
16383
Digital Counts (hex)
0X0000
0X0333
0X0666
0X2000
0X399A
0X3CCB
0X3FFF
Temperature Output vs Counts
OUTPUT (°C)
-50
0
10
25
50
85
150
SENSOR SOLUTIONS /// MS4515DO
Digital Count (decimal)
0
511
614
767
1023
1381
2047
08/2018
Digital Counts (hex)
0X0000
0X01FF
0X0266
0X02FF
0X03FF
0X0565
0X07FF
Page 5
MS4515DO
EXTENDED TEMPERATURE MULTIPLIER CHART
2.5
2.0
1.5
1.0
0.5
0.0
-10
0
10
20
30
40
50
60
70
80
90
PACKAGE, PINOUT & PRESSURE TYPE CONFIGURATION
SENSOR SOLUTIONS /// MS4515DO
08/2018
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MS4515DO
Pin Name
GND
SUPPLY
SDA
MISO
SCL
SCLK
INT
SS
Pin
1
2
3
4
5
6-8
Function
Ground
Positive Supply Voltage
I2C Data
SPI Data
I2C Clock
SPI Clock
I2C Interrupt
SPI Chip Select
No Connection
INT is not available for Pin Style “L” models
Pressure Type
Differential/
Bidirectional
Gauge
Pmin
Pmax
-Prange
+Prange
0psiG
+Prange
Description
Output is proportional to the difference between Port 1 and Port 2. Output swings
positive when Port 1> Port 2. Output is 50% of total counts when Port 1=Port 2
Output is proportional to the difference between 0psiG (P min) and Port 1. Output
swings positive when Port 1> Port 2.
Prange is equal to the maximum full scale pressure specified in the ordering information.
Standard Range (inH2O) by port style
WETTED MATERIAL BY PORT DESIGNATION
Style
DS, MM
SS, TP, SM
Port
Port 1
Port 2
Port 1
Ceramic
X
X
X
Silicon
X
X
X
Material
Borosilicate Glass
RTV
X
X
X
X
X
X
Gold
Aluminum
X
X
X
X
Epoxy
X
X
X
"X” Indicates Wetted Material
SENSOR SOLUTIONS /// MS4515DO
08/2018
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MS4515DO
I2C INTERFACE
I2C Interface Parameters
1
Parameters
Symbol
Min
SCLK Clock Frequency
FSCL
100
Start Condition hold time relative to SCL edge
tHDSTA
0.1
µs
Minimum SCL clock low width 1
tLOW
0.6
µs
Minimum SCL clock high width
tHIGH
0.6
µs
Start Condition Setup time relative to SCL edge
tSUSTA
0.1
µs
Data hold time on SDA relative to SCL edge
tHDDAT
0
µs
Data setup time on SDA relative to SCL edge
tSUDAT
0.1
µs
Stop condition setup time on SCL
tSUSTO
0.1
µs
Bus free time between stop and start condition
tBUS
2
µs
1
Typ
Max
Units
400
kHz
combined low and high widths must equal or exceed minimum SCL period
SENSOR SOLUTIONS /// MS4515DO
08/2018
Page 8
MS4515DO
SPI INTERFACE
SPI Interface Parameters
Parameters
Symbol
Min
SCLK Clock Frequency
FSCL
50
SS Drop to First clock edge
tHDSS
2.5
µs
Minimum SCL clock low width @1
tLOW
0.6
µs
Minimum SCL clock high width @1
tHIGH
0.6
µs
Clock Edge to data transition
tCLKD
0
Rise of SS relative to last clock edge
tSUSS
0.1
µs
Bus free time rise and fall of SS
tBUS
2
µs
Typ
Max
Units
800
kHz
0.1
µs
@1 combined low and high widths must equal or exceed minimum SCLK period
SENSOR SOLUTIONS /// MS4515DO
08/2018
Page 9
MS4515DO
DIMENSIONS
Dimensions are in INCHES [mm]
Model: MS4515DO-DSvoixxxyP
Model: MS4515DO-DSvoixxxyS
SENSOR SOLUTIONS /// MS4515DO
08/2018
Page 10
MS4515DO
Model: MS4515DO-SSvoixxxyP
Model: MS4515DO-SSvoixxxyS
SENSOR SOLUTIONS /// MS4515DO
08/2018
Page 11
MS4515DO
Model: MS4515DO-TPvoixxxyP
Model: MS4515DO-TPvoixxxyS
SENSOR SOLUTIONS /// MS4515DO
08/2018
Page 12
MS4515DO
Model: MS4515DO-SSvoixxxyL
Model: MS4515DO-MMvoixxxyL
SENSOR SOLUTIONS /// MS4515DO
08/2018
Page 13
MS4515DO
Model: MS4515DO-MMvoixxxyP
Model: MS4515DO-MMvoixxxyS
SENSOR SOLUTIONS /// MS4515DO
08/2018
Page 14
MS4515DO
Model: MS4515DO-SSvoixxxyC
Model: MS4515DO-TPvoixxxyC
SENSOR SOLUTIONS /// MS4515DO
08/2018
Page 15
MS4515DO
Model: MS4515DO-MMvoixxxyC
SENSOR SOLUTIONS /// MS4515DO
08/2018
Page 16
MS4515DO
APPLICATION NOTES
Measurement Specialties offers a comprehensive selection of product support documentation.
MS45xx Series Application Note
Bypass Capacitor Selection
Pressure Hose Recommendations
PCB Layout Recommendations
Interfacing to MEAS Digital Pressure Modules
I2C or SPI Protocol Description
Data Fetch, Measurement Request Commands
Timing Diagrams
Configuration, POR and Power Consumption
Standard and Low Power Configuration
Power On Reset (POR)
Current Consumption by Sampling Frequency
AVAILABLE OPTIONS
Gel Coat (-F Option)
The MS4515DO is designed for non-ionic and clean dry air applications. Select this option for added protection in
high humidity or slightly corrosive environments with the application of a silicone gel elastomer to sensor and
ASIC. For questions concerning media compatibility, contact the factory.
Low Power (-L Option)
Select this option for battery powered or handheld device applications. In this configuration, the sensor and
calibration microcontroller are powered down, drawing a current of ~ 0.6uA (Vs=5.0 VDC). When the master sends
a Read MR (measurement request) command (I2C or SPI); the sensor is “awaken” and begins the measurement
cycle; data is then placed onto the output registers. The sensor and calibration microcontroller are powered down
again, awaiting the Read DF (data fetch) command from the master.
SENSOR SOLUTIONS /// MS4515DO
08/2018
Page 17
MS4515DO
ORDERING INFORMATION
4515DO – DS 3 B K 030 D P M
Package Type
SS
Single Sideport
DS
Dual Sideport
TP
Top Port
MM
Manifold Mount
Option Type
[Blank] No Option
F*
Gel Coating
L
Low Power
M*
Gel Coat & Low Power
* Options available for pressure ranges ≥10inH2O
Supply Voltage
3.3 VDC
3
5
5.0 VDC
Pin Type
P
Thru Hole
S
J Lead
L
In Line
C
Castellation
Output Type
A
10% to 90%
B
5% to 95%
Pressure Type
Differential
D
Gauge
G
Interface Type
I
I2C (Addr. 0x28H)
J
I2C (Addr. 0x36H)
K
I2C (Addr. 0x46H)
S
SPI (Not available for ‘L’ pin Style)
0
I2C (Addr. 0x48H)
:
:
9
I2C (Addr. 0x51H)
NORTH AMERICA
Measurement Specialties, Inc.,
a TE Connectivity company
Tel: +1 800-522-6752
Email: customercare.frmt@te.com
Pressure Range [inH2O]
002
004
005
010
020
030
EUROPE
ASIA
Measurement Specialties (Europe), Ltd.,
a TE Connectivity Company
Tel: +31 73 624 6999
Email: customercare.bevx@te.com
Measurement Specialties (China) Ltd.,
a TE Connectivity company
Tel: +86 0400-820-6015
Email: customercare.shzn@te.com
TE.com/sensorsolutions
Measurement Specialties, Inc., a TE Connectivity company.
Measurement Specialties, TE Connectivity, TE Connectivity (logo) and EVERY CONNECTION COUNTS are trademarks. All other logos, products and/or company names referred to herein
might be trademarks of their respective owners.
The information given herein, including drawings, illustrations and schematics which are intended for illustration purposes only, is believed to be reliable. However, TE Connectivity makes
no warranties as to its accuracy or completeness and disclaims any liability in connection with its use. TE Connectivity‘s obligations shall only be as set forth in TE Connectivity‘s Standard
Terms and Conditions of Sale for this product and in no case will TE Connectivity be liable for any incidental, indirect or consequential damages arising out of the sale, resale, use or misuse
of the product. Users of TE Connectivity products should make their own evaluation to determine the suitability of each such product for the specific application.
© 2015
TE Connectivity Ltd. family of companies
SENSOR SOLUTIONS /// MS4515DO
All Rights Reserved.
08/2018
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