Sensortechnics HDIB002U Amplified pressure sensor Datasheet

HDI Series
Amplified pressure sensors
FEATURES
· 10 mbar to 5 bar, absolute, gage or differential pressure
· Digital I2C-bus and analog output
· Precision ASIC signal conditioning
· Calibrated and temperature compensated
· SMT and DIP housings
· RoHS compliant
MEDIA COMPATIBILITY
To be used with non-corrosive, non-ionic working
fluids such as clean dry air, dry gases and the like.
SPECIFICATIONS
ELECTRICAL CONNECTION
Maximum ratings
Supply voltage VS
HDI...3
2.7 ... 3.3 VDC
HDI...5
4.5 ... 5.5 VDC
max. 6.50 VDC
+Vs
Output current
Sink
Source
1 mA
1 mA
Lead specifications
Average preheating temperature gradient 2.5 K/s
Soak time
ca. 3 min
Time above 217°C
50 s
Time above 230°C
40 s
Time above 250°C
15 s
Peak temperature
260°C
Cooling temperature gradient
-3.5 K/s
Temperature ranges5
Compensated
Operating
Storage
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1
2
4
3
6
Vout
SDA
SCL
GND
0 ... +85 °C
-20 ... +85 °C
-40 ... +125 °C
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HDI Series
Amplified pressure sensors
PRESSURE SENSOR CHARACTERISTICS
(TA=25 °C, RH=50 %)
Part no.
Operating pressure
Proof pressure1
Burst pressure2
HDIM010...B...
HDIM020...B...
HDIM050...B...
HDIM100...B...
HDIM200...B...
HDIM500...B...
HDIB001...B...
HDIM010...U...
HDIM020...U...
HDIM050...U...
HDIM100...U...
HDIM200...U...
0...±10 mbar
0...±20 mbar
0...±50 mbar
0...±100 mbar
0...±200 mbar
0...±500 mbar
0...±1 bar
0...10 mbar
0...20 mbar
0...50 mbar
0...100 mbar
0...200 mbar
150 mbar
150 mbar
550 mbar
1 bar
1 bar
1 bar
2 bar
150 mbar
150 mbar
550 mbar
1 bar
1 bar
200 mbar
200 mbar
800 mbar
1.5 bar
1.5 bar
1.5 bar
3 bar
200 mbar
200 mbar
800 mbar
1.5 bar
1.5 bar
HDIM500...U...
0...500 mbar
1 bar
1.5 bar
HDIB001...U...
HDIB002...U...
HDIB005...U...
HDI0611AR...
HDI0811AR...
0...1 bar
0...2 bar
0...5 bar
600...1100 mbar(a)
800...1100 mbar(a)
2 bar
4 bar
7 bar
2 bara
2 bara
3 bar
6 bar
7 bar
3 bara
3 bara
Other pressure ranges are available on request. Please contact First Sensor.
Specification notes:
1. Proof pressure is the maximum pressure which may be applied without causing durable shifts of the electrical parameters of the
sensing element.
2. Burst pressure is the maximum pressure which may be applied without causing damage to the sensing element or leaks to the
housing.
3. Full Scale Span (FSS) is the algebraic difference between the output signal for the highest and lowest specified pressure.
4. Total accuracy is the combined error from offset and span calibration, linearity, pressure hysteresis, and temperature effects.
Linearity is the measured deviation based on a straight line. Hysteresis is the maximum output difference at any point within the
operating pressure range for increasing and decreasing pressure. Calibration errors include the deviation of offset and full scale
from nominal values.
5. Extended temperature ranges on request. Please contact First Sensor.
6. Max. delay time between pressure change at the pressure die and signal change at the output.
7. The response time depends on the adjusted internal A/D resolution of the sensor. For 12 bit it is typ. 0.5 ms. Other A/D resolutions
and reponse time are available on request. Please contact First Sensor for further information.
8. Sensors with lower current consumption are available on request. Please contact First Sensor for further information.
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HDI Series
Amplified pressure sensors
PERFORMANCE CHARACTERISTICS
(VS=5.0 VDC, TA=25 °C, RH=50 %, analog output signal is ratiometric to VS, digital output signal is not ratiometric to VS)
All HDI...P5 devices (VS = 5.0)
Characteristics
Total accuracy (0...85°C)4
all barometric devices
all other devices
Response delay6, 7
A/D resolution7
D/A resolution
Current consumption8
Min.
Typ.
Max.
±1.0
±0.5
0.5
12
Units
%FSS
ms
11
5
bit
mA
All HDI...R...P5 (barometric devices)
Characteristics
Min.
Typ.
Max.
Units
ANALO G UE PE R F O R M A N C E C H A R A C T E R I S T I C
Output at min. specified pressure
Full scale span (FSS)3
Full scale output
0.46
4.46
0.50
4.00
4.50
0.54
4.54
V
DI G I TAL PER F O R M A N C E C H A R A C T E R I S T I C
Output at min. specified pressure
Full scale span (FSS)3
Full scale output
3015
29228
3277
26214
29490
3539
29752
Min.
Typ.
Max.
counts
All HDI...U...P5 (unidirectional devices)
Characteristics
Units
ANALO G PER F O R M A N C E C H A R A C T E R I S T I C
Zero pressure offset
Full scale span (FSS)3
Full scale output
0.48
4.48
0.50
4.00
4.50
0.52
4.52
V
DI G I TAL PER F O R M A N C E C H A R A C T E R I S T I C
Zero pressure offset
Full scale span (FSS)3
Full scale output
3146
29359
3277
26214
29490
3408
29621
Min.
Typ.
Max.
counts
All HDI...B...P5 (bidirectional devices)
Characteristics
Units
ANALO G PER F O R M A N C E C H A R A C T E R I S T I C
Zero pressure offset
Full scale span (FSS)3
Output
2.48
at max. specified pressure
at min. specified pressure
4.48
0.48
2.50
4.00
4.50
0.50
2.52
4.52
0.52
V
DI G I TAL PER F O R M A N C E C H A R A C T E R I S T I C
Zero pressure offset
Full scale span (FSS)3
Output
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16252
at max. specified pressure
at min. specified pressure
29359
3146
16384
26214
29490
3277
16515
29621
3408
counts
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HDI Series
Amplified pressure sensors
PERFORMANCE CHARACTERISTICS
(VS=3.0 VDC, TA=25 °C, RH=50 %, analog output signal is ratiometric to VS, digital output signal is not ratiometric to VS)
All HDI...P3 devices (VS = 3.0)
Characteristics
Total accuracy (0...85°C)4
all barometric devices
all other devices
Response delay6, 7
A/D resolution7
D/A resolution
Current consumption8
Min.
Typ.
Max.
±1.0
±0.5
0.5
12
Units
%FSS
ms
11
3
bit
mA
All HDI...R...P3 (barometric devices)
Characteristics
Min.
Typ.
Max.
Units
ANALO G UE PE R F O R M A N C E C H A R A C T E R I S T I C
Output at min. specified pressure
Full scale span (FSS)3
Full scale output
0.23
2.23
0.25
2.00
2.25
0.27
2.27
V
DI G I TAL PER F O R M A N C E C H A R A C T E R I S T I C
Output at min. specified pressure
Full scale span (FSS)3
Full scale output
2512
24357
2731
21845
24575
2949
24794
Min.
Typ.
Max.
counts
All HDI...U...P3 (unidirectional devices)
Characteristics
Units
ANALO G PER F O R M A N C E C H A R A C T E R I S T I C
Zero pressure offset
Full scale span (FSS)3
Full scale output
0.24
2.24
0.25
2.00
2.25
0.26
2.26
V
DI G I TAL PER F O R M A N C E C H A R A C T E R I S T I C
Zero pressure offset
Full scale span (FSS)3
Full scale output
2621
24466
2731
21845
24575
2840
24684
Min.
Typ.
Max.
counts
All HDI...B...P3 (bidirectional devices)
Characteristics
Units
ANALO G PER F O R M A N C E C H A R A C T E R I S T I C
Zero pressure offset
Full scale span (FSS)3
Output
1.24
at max. specified pressure
at min. specified pressure
2.24
0.24
1.25
2.00
2.25
0.25
1.26
2.26
0.26
V
DI G I TAL PER F O R M A N C E C H A R A C T E R I S T I C
Zero pressure offset
Full scale span (FSS)3
Output
E / 11650 / G
13545
at max. specified pressure
at min. specified pressure
24466
2621
13653
21845
24575
2731
13762
24684
2840
counts
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HDI Series
Amplified pressure sensors
I²C BUS
Introduction
The HDI is capable to generate a digital output signal. The
device runs a cyclic program, which will store a corrected
pressure value with 12 bit resolution about every 250 µs
within the output registers of the internal ASIC. In order
to use the sensor for digital signal readout, it should be
connected to a bidirectional I²C-bus.
According to the I²C-bus specification, the bus is controlled
by a master device, which generates the clock signal,
controls the bus access and generates START and STOP
conditions. The HDI is designed to work as a slave, hence
it will only respond to requests from a master device.
Digital I²C interface
The HDI complies with the following protocol (Fig. 1):
Bus not busy: During idle periods both data line (SDA)
and clock line (SCL) remain HIGH.
START condition (S): HIGH to LOW transition of SDA
line while clock (SCL) is HIGH is interpreted as START
condition. START conditions are always generated by
the master. Each initial request for a pressure value has
to begin with a START condition.
STOP condition (P): LOW to HIGH transition of SDA line
while clock (SCL) is HIGH determines STOP condition.
STOP conditions are always generated by the master.
More than one request for the current pressure value
can be transmitted without generation of intermediate
STOP condition.
DATA valid (D): State of data line represents valid data
when, after START condition, data line is stable for
duration of HIGH period of clock signal. Data on line
must be changed during LOW period of clock signal.
There is one clock pulse per bit of data.
Acknowledge (A): Data is transferred in pieces of 8 bits
(1 byte) on serial bus, MSB first. After each byte
receiving device – whether master or slave – is obliged
to pull data line LOW as acknowledge for reception
of data. Master must generate an extra clock pulse
for this purpose. When acknowledge is missed, slave
transmitter becomes inactive. It is on master either
to send last command again or to generate STOP
condition in that case.
Slave address: The I²C-bus master-slave concept
requires a unique address for each device. The HDI has
a preconfigured slave address (1111000xb). By factory
programming it is possible to define a secondary slave
address additional to the general one. According to I²C
specification 127 different addresses are available. The
sensor will then listen to both slave addresses. After
generating a START condition the master sends the
address byte containing a 7 bit address followed by a
data direction bit (R/W). A "0" indicates a transmission
from master to slave (WRITE), a "1" indicates a data
request (READ).
DATA operation: The sensor starts to send 2 data bytes
containing the current pressure value as a 15 bit
information placed in the output registers.
SCL
SDA
START
condition
1
S Slave Address R/W A
Data
valid
Data allowed
to change
Data Byte 1
A
STOP
condition
Data Byte 2
Read out of first pressure value
generated by master
generated by slave
S = START condition
A = Acknowledge
P = STOP condition
A
Data Byte 1
P
Read out of n pressure values (optional)
Data Byte 1 = High Byte (MSB first)
Data Byte 2 = Low Byte (LSB last)
Fig. 1: I²C bus protocol
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HDI Series
Amplified pressure sensors
I²C Interface Parameters
Parameter
Input high level
Input low level
Output low level
Pull-up resistor
Load capacitance @ SDA
Input capacitance @ SDA/SCL
SCL clock frequency
Bus free time between STOP and START condition
Hold time (repeated) START condition, to first clock pulse
LOW period of SCL
HIGH period of SCL
Setup time repeated START condition
Data hold time
Data setup time
Rise time of both SDA and SCL
Fall time of both SDA and SCL
Setup time for STOP condition
Symbol
Min.
90
0
Typ.
Max.
100
10
10
Unit
% of Vs
W
500
CSDA
CI2C_IN
FSCL
tBUF
tHD.STA
tLOW
tHIGH
tSU.STA
tHD.DAT
tSU.DAT
tR
tF
tSU.STO
400
10
400
100*
1.3
0.8
1.3
0.6
1
0
0.2
pF
kHz
µs
0.3
0.3
0.6
* recommended
Note: First Sensor recommends communication speeds of at least 100 kHz (max. 400 kHz).
Please contact us for further information.
tSU;DAT
tHD;DAT
tSU;STA tHD;STA
tR
tSU;STO tBUF
tHD;STA
tF
SCL
SDA
tHIGH tLOW
SCL
SDA
Fig. 2: Timing characteristics
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HDI Series
Amplified pressure sensors
PHYSICAL DIMENSIONS
4,10
HDI...F... (DIP, 2 ports same side)
6,23
3,40
0,25
2,68
2,30
15
15,70
11,90
3,41
2,54
9,28
5,08
0,63
7,60
first angle projection
18,75
19,50
R0
,
40
10,93
9,64
8,83
5,73
1,90
3,35
0,46
dimensions in mm
6,23
2,68
2,30
15
15,70
14,32
11,90
0,25
3,41
2,54
3,40
4,10
HDI...E... (SMD, 2 ports same side)
R0
,
40
E / 11650 / G
0,63
4,69
7,79
9,89
8,60
2,31
0,46
0,86
5,08
7,60
18,75
19,50
first angle projection
dimensions in mm
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HDI Series
Amplified pressure sensors
PHYSICAL DIMENSIONS (cont.)
HDI...Z... (DIP, 1 port axial)
13,01
11,90
0,25
2,69
3,03
15
15,70
8
3,41
2,54
5,08
5,73
3,03
8,83
2,69
2
0,46
7,79 ±0,50
6,83 ±0,50
8
R0
,8
0
15,70 ±0,50
high pressure
port
A
0,63
2,12 ±0,50
R
0,
40
first angle projection
dimensions in mm
HDI...Y... (SMD, 1 port axial)
7,79
8
3,41
2,54
0,25
2,69
3,03
14,32
15,70
15
11,90
5,08
0,63
15,79
4,69
0,96
0,46
first angle projection
40
0,
R
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dimensions in mm
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HDI Series
Amplified pressure sensors
ELECTRICAL CONNECTION (cont.)
HDI...A...
(absolute)
HDI...G...
(gage)
4 5 6
3 2 1
Pin
marking
HDI...D...
(differential)
6 5 4
4 5 6
1 2 3
Pin
marking
3 2 1
High pressure port
Pin
1
2
3
4
5
6
Connection
+Vs
+Vout
GND
SDA
I / C*
SCL
* Internal connection.
Do not connect for
any reason
Pin
marking
ORDERING INFORMATION
Series
Options
HDI
Pressure range
Pressure mode
B* Bidirectional
M010
10 mbar G Gage
R** Barometric
M020
20 mbar
M050
50 mbar
M100
100 mbar
M200
200 mbar
M500
500 mbar
B001
1 bar
(B001A)
1 bara
B002
2 bar
B005
5 bar
HDI
Note:
M050
U
Unidirectional
Housing
F* DIP, 2 ports
same side
Porting
Grade
Voltage
8 Straight P Prime 5 5 V
3 3V
E* SMD, 2 ports
same side
Z** DIP, 1 port
axial
Y** SMD, 1 port
axial
* only from 1 bar
Example:
Calibration
0611 600...1100 mbar A* Absolute
0811 800...1100 mbar D Differential
G
* only up to 1 bar
** for pressure ranges
0611, 0811
U
* standard for differential
devices, "D"
** standard for absolute
and gage devices,
"A" and "G"
Z
8
P
5
Devices highlighted in grey are preferred stock items
First Sensor reserves the right to make changes to any products herein. First Sensor does not assume any liability arising out of the
application or use of any product or circuit described herein, neither does it convey any license under its patent rights nor the rights of others.
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