ASC DLHR-F50G Dlhr series low voltage digital pressure sensor Datasheet

Proof Pressure
Burst Pressure
Nominal Span
DLHR-F50D
±0.5 inH2O
100 inH2O
300 inH2O
±0.4 * 224 counts
DLHR-L01D
±1 inH2O
100 inH2O
300 inH2O
±0.4 * 224 counts
DLHR-L02D
±2 inH2O
100 inH2O
300 inH2O
±0.4 * 2 counts
DLHR-L05D
±5 inH2O
200 inH2O
300 inH2O
±0.4 * 224 counts
DLHR-L10D
±10 inH2O
200 inH2O
300 inH2O
±0.4 * 224 counts
DLHR-L20D
±20 inH2O
200 inH2O
500 inH2O
±0.4 * 224 counts
DLHR-L30D
±30 inH2O
200 inH2O
500 inH2O
±0.4 * 2 counts
DLHR-L60D
±60 inH2O
200 inH2O
800 inH2O
±0.4 * 224 counts
DLHR-F50G
0 to 0.5 inH2O
100 in H2O
300 inH2O
0.8 * 224 counts
DLHR-L01G
0 to 1 inH2O
100 inH2O
300 inH2O
0.8 * 224 counts
DLHR-L02G
0 to 2 inH2O
100 inH2O
300 inH2O
0.8 * 2 counts
DLHR-L05G
0 to 5 inH2O
200 inH2O
300 inH2O
0.8 * 224 counts
DLHR-L10G
0 to 10 inH2O
200 inH2O
300 inH2O
0.8 * 224 counts
DLHR-L20G
0 to 20 inH2O
200 inH2O
500 inH2O
0.8 * 224 counts
DLHR-L30G
0 to 30 inH2O
200 inH2O
500 inH2O
0.8 * 224 counts
DLHR-L60G
0 to 60 inH2O
200 inH2O
800 inH2O
0.8 * 224 counts
EOC
Gnd
- OR -
24
SPI
Vs
SCLK
MISO
MOSI
/SS
EOC
Gnd
Environmental Specifications
3.63 Vdc
10 psig
270 °C
Temperature Ranges
Compensated:
Commercial
Industrial
Operating
Storage
Humidity Limits (non condensing)
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SDA
0°C to 70°C
-20°C to 85°C
-25°C to 85 °C
-40°C to 125 °C
0 to 95% RH
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I2C
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Lead Temperature (soldering 2-4 sec.)
SCL
24
Pressure Sensor Maximum Ratings
Common Mode Pressure
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24
Vs
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Operating Range
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Device
Equivalent Circuit
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Standard Pressure Ranges
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These calibrated and compensated sensors provide accurate, stable output over a wide temperature range. This series
is intended for use with non-corrosive, non-ionic working fluids such as air, dry gases and the like. A protective parylene
coating is optionally available for moisture/harsh media protection.
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The digital interface eases integration of the sensors into a wide range of process control and measurement systems,
allowing direct connection to serial communications channels. For battery-powered systems, the sensors can enter very
low-power mode between readings to minimize load on the power supply.
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The DLHR Series Mini Digital Output Sensor is based on All Sensors’ CoBeam2 TM Technology. This reduces package stress
susceptibility, resulting in improved overall long term stability and vastly improves the position sensitivity.
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General Description
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• Medical Breathing
• Environmental Controls
• HVAC
• Industrial Controls
• Portable/Hand-Held Equipment
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Applications
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• 0.5 to 60 inH2O Pressure Ranges
• 1.68V to 3.6V Supply Voltage Range
• I2C or SPI Interface (Automatically Selected)
• Better than 0.25% Accuracy
• High Resolution 16/17/18 bit Output
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Features
Supply Voltage (Vs)
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DLHR Series Low Voltage Digital Pressure Sensors
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All parameters are measured at 3.3V ±5% excitation and 25C unless otherwise specified (Note 9). Pressure measurements are with positive
pressure applied to PORT B.
Parameter
LxxD, FxxD
LxxG, FxxG
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-
Total Error Band
F50G
F50D
L01x
L02x
L05x, L10x, L20x, L30x, L60x
0.5 * 2
0.1 * 224
24
-
Dec Count
Dec Count
-
2.5
2.0
1.5
1.0
0.5
3.0
2.5
2.0
1.5
1.0
-
2
%FSS
%FSS
%FSS
%FSS
%FSS
Span Temperature Shift 3
F50x, L01x, L02x
L05x, L10x, L20x, L30x, L60x
Offset Temperature Shift
-
±0.5
%FSS
±0.2
%FSS
3
F50x, L01x, L02x
L05x, L10x, L20x, L30x, L60x
Offset Warm-up Shift
-
±0.5
±0.2
%FSS
%FSS
F50x, L01x, L02x
L05x, L10x, L20x, L30x, L60x
-
±0.25
±0.15
%FSS
%FSS
Offset Position Sensitivity (±1g)
4
-
Offset Long Term Drift (One Year)
F50x, L01x, L02x
L05x, L10x, L20x, L30x, L60x
-
±0.10
±0.05
-
%FSS
%FSS
-
±0.25
±0.15
-
-
-
%FSS
%FSS
Temperature Output
Resolution
16
bit
Overall Accuracy
2
°C
Supply Current Requirement
During Active State (ICCActive)
2.0
2.6
mA
During Active State (ICCIdle)
100
250
nA
Power On Delay
2.5
ms
(see table below)
ms
5, 7, 8
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Linearity, Hysteresis Error
6
F50D, LxxD
±0.25
%FSS
F50G, LxxG
±0.10
%FSS
Pressure Digital Resolution - No Missing Codes
16-bit Option
15.7
bit
17-bit Option
16.7
bit
18-bit Option
17.7
bit
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Dec Count
Dec Count
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5
5, 7
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DLHR Series Low Voltage Digital Pressure Sensors
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-
1
R
R
±0.4 * 2
0.8 * 224
24
Notes
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Units
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-
Data Update Time (tDU)
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Max
Offset Output @ Zero Diff. Pressure (OSdig)
F50x, L01x, L02x
L05x, L10x, L20x, L30x, L60x
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Typ
Output Span (FSS)
LxxD, FxxD
LxxG, FxxG
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Min
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Performance Characteristics for DLHR Series - Commercial and Industrial Temperature Range
Symbol
Min
Typ
Max
Units
Notes
Input High Level
-
80.0
-
100
% of Vs
5
Input Low Level
-
0
-
20.0
% of Vs
5
Output Low Level
-
-
-
10.0
% of Vs
5
I2C Pull-up Resistor
-
1000
-
-
Ω
5
CSDA
-
-
200
pF
5
CI2C_IN
-
-
10.0
pF
5
Pressure Output Transfer Function
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The sensor Full Scale Span in inches H2O
For Gage Operating Range sensors: Full Scale Pressure
For Differential Operating Range sensors: 2 x Full Scale Pressure.
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Is the specified digital offset
For Gage Operating Range sensors:
For Differential Operating Range sensors:
0.1 * 224
0.5 * 224
Temperature Output Transfer Function
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The sensor 24‐bit digital temperature output.
(Note that only the upper 16 bits are significant)
Specification Notes
1:THE SPAN IS THE ALGEBRAIC DIFFERENCE BETWEEN FULL SCALE DECIMAL COUNTS AND THE OFFSET DECIMAL COUNTS.
note
2:TOTAL ERROR BAND CONSISTS OF OFFSET AND SPAN TEMPERATURE AND CALIBRATION ERRORS, LINEARITY AND PRESSURE HYSTERESIS ERRORS, OFFSET
note
3:SHIFT IS RELATIVE TO 25C.
note
4:SHIFT IS WITHIN THE FIRST HOUR OF EXCITATION APPLIED TO THE DEVICE.
note
5:PARAMETER IS CHARACTERIZED AND NOT 100% TESTED.
note
6:MEASURED AT ONE-HALF FULL SCALE RATED PRESSURE USING BEST STRAIGHT LINE CURVE FIT.
note
7:DATA UPDATE TIME IS EXCLUSIVE OF COMMUNICATIONS, FROM COMMAND RECEIVED TO END OF BUSY STATUS. THIS CAN BE OBSERVED AS EOC PIN
note
8:
AVERAGE CURRENT CAN BE ESTIMATED AS : ICCIdle + (tDU / Reading Interval) * ICCActive). REFER TO FIGURE 2 FOR ACTIVE AND IDLE CONDITIONS OF THE
note
9:
THE SENSOR IS CALIBRATED WITH A 3.3V SUPPLY HOWEVER, AN INTERNAL REGULATOR ALLOWS A SUPPLY VOLTAGE OF 1.68V TO 3.6V TO BE USED
WARM-UP SHIFT, OFFSET POSITION SENSITIVITY AND LONG TERM OFFSET DRIFT ERRORS.
LOW- STATE DURATION.
SENSOR (THE ACTIVE STATE IS WHILE EOC PIN IS LOW).
WITHOUT AFFECTING THE OVERALL SPECIFICATIONS. THIS ALLOWS DIRECT OPERATION FROM A BATTERY SUPPLY.
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Is the sensor 24‐bit digital output.
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decimal
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I2C Address
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I2C Input Capacitance (each pin)
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I2C Load Capacitance on SDA, @ 400 kHz
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Parameter
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I2C / SPI Electrical Parameters for DLHR Series
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Output Resolution
Calibrated output resolution can be ordered to be 16, 17, or 18 bits.
Higher resolution results in slower update times; see the Data Update Time in the Performance Characteristics table.
Coating
Parylene Coating: Parylene coating provides a moisture barrier and protection form some harsh media. Consult factory
for applicability of Parylene for the target application and sensor type.
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Device Ordering Options
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I/O Interface Configuration: The sensor automatically selects SPI or I2C serial interface, based on the following protocol:
If the /SS input is set low by the host (as occurs during a SPI command transaction), the I/O interface will remain
configured for SPI communications until power is removed. Otherwise, once a valid device address and command have
been received over the I2C interface, the I/O interface will remain configured for I2C until power is removed.
NOTE: The four-pin (SIP) packages only support the I2C interface.
DLHR Series Low Voltage Digital Pressure Sensors
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For optimum sensor performance, All Sensors recommends that Measurement commands be issued at a fixed interval
by the host system. Irregular request intervals may increase overall noise on the output.
Furthermore, if reading intervals are much slower than the Device Update Time, using the Averaging commands is
suggested to reduce offset shift. This shift is constant with respect to time interval, and may be removed by the application. For longer fixed reading intervals, this shift may be removed by the factory on special request.
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After completion of the measurement, the result may then be read using the Data Read command. The ADC and DSP
remain in Idle state, and the I/O block returns the 7 bytes of status and measurement data. See Figure 2, following. At
any time, the host may request current device status with the Status Read command.
See Table 1 for a summary of all commands.
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Sensor Commands: Five Measurement commands are supported, returning values of either a single pressure /
temperature reading or an average of 2, 4, 8, or 16 readings. Each of these commands wakes the sensor from Idle state
into Active state, and starts a measurement cycle. For the Start-Average commands, this cycle is repeated the
appropriate numper of times, while the Start-Single command performs a single iteration. When the DSP has
completed calculations and the new values have been made available to the I/O block, the sensor returns to Idle state.
The sensor remains in this low-power state until another Measurement command is received.
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The DSP receives the converted pressure and temperature information and applies a multi-order transfer function to
compensate the pressure output. This transfer function includes compensation for span, offset, temperature effects on
span, temperature effects on offset and second order temperature effects on both span and offset. There is also
linearity compensation for gage devices and front to back linearity compensation for differential devices.
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The ADC performs conversions on the raw sensor signal (P), the temperature reference (T) and a zero reference (Z)
during the ADC measurement cycle.
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Figure 1 - DLHR Essential Model
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The DLHR is a digital sensor with a signal path that includes a sensing element, a variable- bit analog to digital converter, a
DSP and an IO block that supports either an I2C or SPI interface (see Figure 1 below). The sensor also includes an internal temperature reference and associated control logic to support the configured operating mode. Since there is a single ADC, there
is also a multiplexer at the front end of the ADC that selects the signal source for the ADC.
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Operation Overview
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Figure 2 - DLHR Communication Model
Start-Single Command
Command
Start-Single
Internal State
Idle
Interal Operation
Idle
Data Read
Active
ADC (Temp, Zero, Pressure)
Start-Single
Active
Idle
DSP
Idle
ADC (Temp, Zero, Pressure)
Idle
Idle
DSP
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Operation Overview
New Data Available
EOC
Idle
ADC (Temp, Zero, Pressure)1
ADC (Temp, Zero, Pressure)n
DSP
Start-Average2/4/8/16
Idle
Active
Idle
ADC (T, Z, P)…
New Data Available
EOC
Digital Interface Command Formats
0x00
Start‐Average2
0xAC
0x00
0x00
Start‐Average4
0xAD
0x00
0x00
Start‐Average8
0xAE
0x00
0x00
Start‐Average16
0xAF
0x00
0x00
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0x00
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0xAA
Read Sensor Data
I2C Read of 7 bytes from device
Read of 7 bytes from device
SPI Host must send [0xF0], then 6 bytes of [0x00] on MOSI
Sensor Returns 7 bytes on MISO
Read Sensor Status
I2C Read of 1 byte from device.
Read of 1 byte from device
SPI Host must send [0xF0] on MOSI
Sensor Returns 1 byte on MISO
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Start‐Single
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Command ( 3 bytes )
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Description
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Measurement Commands (I2C or SPI)
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Table 1 - DLHR Sensor Command Set
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When requesting the start of a measurement, the command format for both I2C and SPI is the same.
When requesting sensor status over I2C, the host simply performs a 1-byte read transfer.
When requesting sensor status over SPI, the host must send the Status Read command byte while reading 1 byte.
When reading sensor data over I2C, the host simply performs a 7-byte read transfer.
When reading sensor data over SPI, the host must send the 7-byte Data Read command while reading the data.
See Table 1 below for Measurement Commands, Sensor Data read and Sensor Status read details.
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Interal Operation
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Idle
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Data Read
Start-Average2/4/8/16
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Command
Internal State
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Start-Average2 / 4 / 8 / 16 Commands (Auto Averaging)
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For either type of digital interface, the format of data returned from the sensor is the same. The first byte consists of the
Status Byte followed by a 24-bit unsigned pressure value and a 24-bit unsigned temperature value. Unused bits
beyond the calibrated bit width are undefined, and may have any value. See the Pressure Output Transfer Function
and Temperature Output Transfer Function definitions on page 3 for converting to pressure and temperature.
Refer to Table 2 for the overall data format of the sensor. Table 3 shows the Status Byte definition.
Note that a completed reading without error will return status 0x40.
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Digital Interface Data Format
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P[15:8]
Pressure
Byte 1
P[7:0]
Pressure
Byte 0
T[23:16]
Temperature
Byte 3
T[15:8]
Temperature
Byte 1
T[7:0]
Temperature
Byte 0
Table 3- Status Byte Definition
Bit
Bit 7 [MSB]
6
5
4:3
2
1
Bit 0 [LSB]
Description
[Always = 0]
Power : [1 = Power On]
Busy: [ 1 = Processing Command, 0 = Ready]
Mode: [00 = Normal Operation ]
Memory Error [ 1 = EEPROM Checksum Fail]
Sensor Configuration [ always = 0]
ALU Error [1 = Error]
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P[23:16]
Pressure
Byte 3
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S[7:0]
Status
Byte
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Table 2 - Output Data Format
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DLHR Series Low Voltage Digital Pressure Sensors
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The part enters Idle state after power-up, and waits for a command from the bus master. Any of the five
Measurement commands may be sent, as shown in Table 1. Following receipt of one of these 3-byte commands,
the EOC pin is set to Low level, and the sensor Busy bit is set in the Status Byte. After completion of measurement
and calculation in the Active state, compensated data is written to the output registers, the EOC pin is set high,
and the processing core goes back to Idle state. The host processor can then perform the Data Read operation,
which for I2C is simply a 7-byte Device Read.
If the EOC pin is not monitored, the host can poll the Status Byte by repeating the Status Read command, which
for I2C is a one-byte Device Read. When the Busy bit in the Status byte is zero, this indicate that valid data is
ready, and a full Data Read of all 7 bytes may be performed.
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I2C Command Sequence
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I2C Interface
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Figure 3 - I2C Communication Diagram
1. Measurement Commands: Start-Single ( to start reading of single sample):
Start-Single
Start-Average2
Start-Average4
Start-Average8
Start-Average16
Set by bus master:
Set by sensor:
C23…C16:
C23…C16:
C23…C16:
C23…C16:
C23…C16:
0xAA
0xAC
0xAD
0xAE
0xAF
I ST A6 A5 A4 A3 A2 A1 A0 W
A
C23 … C16
A
0x00
C15 … C8
A
0x00
C7 … C0
N
SP
I
2. Status Read :
Set by bus master:
Set by sensor:
I ST A6 A5 A4 A3 A2 A1 A0 R
N SP
I
A
S7 … S0
A
S7 … S0
P23 … P16
Data bits:
Status:
Pressure data:
Temperature data:
S7 … S0
P23 … P0
T23 … T0
3. Data Read:
Set by bus master:
Set by sensor:
Bus states:
Idle:
I
Start:
ST
Stop:
SP
Ack:
A
Nack:
N
“Read” bit (1): R
“Write” bit (0): W
I ST A6 A5 A4 A3 A2 A1 A0 R
Sensor Address:
A6 … A0
Default: 0x29
Command Bits:
A
A
A
P15 … P8
A
P7 … P0
A
T23 … T16
A
T15 … T8
N SP
I
T7 … T0
C23 … C0
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STOP condition (P): LOW to HIGH transition of the SDA line while clock (SCL) is HIGH indicates a STOP condition. STOP conditions are always generated by the master.
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DATA valid (Dn): State of data line represents valid data when, after a 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 data bit.
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Acknowledge (A or N): Data is transferred in units of 8 bits (1 byte) at a time, MSB first. Each data-receiving
device, whether master or slave, is required to pull the data line LOW to acknowledge receipt of the data. The
Master must generate an extra clock pulse for this purpose. If the receiver does not pull the data line down, a
NACK condition exists, and the slave transmitter becomes inactive. The master determines whether to send
the last command again or to set the STOP condition, ending the transfer.
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Slave address (An): The I²C-bus requires a unique address for each device. The DLH sensor has a preconfigured
slave address (see specification table on Page 3). After setting a START condition the master sends the address
byte containing the 7 bit sensor address followed by a data direction bit (R/W). A “0” indicates a transmission
from master to slave (WRITE), a “1” indicates a device-to master request (READ).
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START condition (ST): A HIGH to LOW transition of SDA line while the clock (SCL) is HIGH is interpreted as
START condition. START conditions are always set by the master. Each initial request for a pressure value has to
begin with a START condition.
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Bus not Busy (I): During idle periods both data line (SDA) and clock line (SCL) remain HIGH.
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The I2C interface uses a set of signal sequences for communication. The following is a description of the supported sequences and their associated mnemonics. Refer to Figure 3 for the associated usage of the following
signal sequences.
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I2C Bus Communications Overview
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I2C Interface (Cont’d)
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SPI Bus Communications Overview
The sequence of bits and bus signals are shown in the following illustration (Figure 4). Refer to Figure 5 in the Interface
Timing Diagram section for detailed timing data.
Figure 4 - SPI Communications Diagram
Measurement Command
SCLK
--First Command Byte (0xAA / 0xAC / 0xAD / 0xAE / 0xAF)
MOSI
XXXX
C23
C22
C21
MISO
HI-Z
S7
S6
S5
Lower Command Bytes (0x00 0x00)
C20
C19
C18
C17
C16
C 15
S4
S3
S2
S1
S0
XX
-----
S7 … S0 (Status)
XX
XX
HI-Z
---
Read Status Command
SCLK
Command (0xF0)
MOSI
Don't Care
1
1
1
MISO
Hi-Z
S7
S6
S5
1
0
0
0
0
S4
S3
S2
S1
S0
Don't care
Hi-Z
S7 … S0 (Status)
SS
Data Read Command
SCLK
---
---
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XXXX
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C0
(Undefined Data)
SS
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C1
R
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NOTE: Sending command data that is not defined in this document may cause unexpected device behavior.
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As with the I2C interface configuration, the part enters Idle state after power-up, and waits for a command from the SPI master.
To start a measurement cycle, one of the 3- byte Measurement Commands (see Table 1) must be issued by the master.
The data returned by the sensor during this command request consists of the Status Byte followed by two undefined data bytes.
On successful decode of the command, the EOC pin is set Low as the core goes into Active state for measurement and calculation. When complete, updated sensor data is written to the output registers, and the core goes back to the Idle state. The EOC
pin is set to a High level at this point, and the Busy status bit is set to 0. At any point during the Active or Idle periods, the SPI
master can request the Status Byte by sending a Status Read command (a single byte with value 0xF0).
As with the I2C configuration, a Busy bit of value 0 in the Status Byte or a high level on the EOC pin indicates that a valid data
set may be read from the sensor. The Data Read command must be sent from the SPI master (The first byte of value 0xF0 followed by 6 bytes of 0x00).
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SPI Command Sequence
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SPI Interface
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1
1
0
0
0
0
MISO
Hi-Z
S7
S6
S5
S4
S3
S2
S1
S0
S7 … S0 (Status)
SS
0
0
P23 P22
---
0
0
---
P1
P0
0
0
T23 T22
---
0
0
Don't Care
---
T1
T0
Hi-Z
P23…P0 (Pressure)
T23…T0 (Temperature)
---
---
DLHR Series Low Voltage Digital Pressure Sensors
Page 8
R
ors.com
1
Signed Original O
MOSI
1
www.allsensors.com
R
Command (0xF0 then 6 bytes of 0x00)
Don't Care
tSSCLK
(HI•Z)
tSSSO
tDSU
all sensors
don't care
(don't
care)
tDH
SS
tSSZ
tCLKSS
SYMBOL
fSCLK
tSSCLK
tSSSO
tCLKD
tLOW
tHIGH
tDSU
tDH
tCLKSS
tSSZ
tIDLE
MIN
0.05
120
-8
100
100
50
50
0
-250
TYP
-
MAX
5
20
32
20
-
UNITS
MHz
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
tSUS TA
PARAMETER
SCL frequency
SCL low width
SCL high width
Start condition setup
Start condition hold
Data setup to clock
Data hold to clock
Stop condition setup
Bus idle time
f 408 225 2079
tSUDAT
SYMBOL
fSCL
tLOW
tHIGH
tSUSTA
tHSTA
tSUDAT
tHDAT
tSUSTP
tIDLE
All Sensors
p 408 225 4314
tH DAT
MIN
100
1.3
0.6
0.6
0.6
0.1
0
0.6
2.0
tSUS TP
TYP
-
tIDLE
MAX
400
-
a 16035 Vineyard Blvd. Morgan Hill, CA 95037
Signed Original On File
SDA
UNITS
KHz
us
us
us
us
us
us
us
us
DS-0350 Rev A
Page 9
R
Original On File
SCL
R
www.allsensors.com
tLOW
Signed Original O
R
tHIGH
www.allsensors.com
ors.com
tH STA
Signed Original On File
Figure 6 - I2C Timing Diagram
www.allsensors.com
R
(1) Maximum by design, tested to 1.0 MHz.
R
PARAMETER
SCLK frequency (1)
SS low to first clock edge
SS low to serial out
Clock to data out
SCLK low width
SCLK high width
Data setup to clock
Data hold after clock
Last clock to rising SS
SS high to output hi-Z
Bus idle time
tIDLE
Signed Original On File
Signed Original On File
MOSI
(HI•Z)
www.allsensors.com
R
tHIGH
SCLK
MISO
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tLOW
tCLKD
e www.allsensors.com
R
Signed Original On F
Figure 5 - SPI Timing Diagram
R
www.allsensors.com
w.allsensors.com
Signed Original On File
Interface Timing Diagrams
R
Signed Original On F
Refer to Table 4 for configuring a standard base part number which includes the pressure range, package and
temperature range. Table 5 shows the available configuring options. The option identifier is required to complete the device part number. Refer to Table 6 for the available device packages.
Example P/N with options: DLHR-L02D-E1NS-C-NAV6
Table 4 - How to configure a base part
SERIES
PRESSURE RANGE
-
E
ORDERING INFORMATION
ID
N
B
1
ID
S
D
J
N
ID
C
I
Description
Commercial
Industrial
S
-
C
Table 5 - How to configure an option identifier
ORDERING
INFORMATION
Signed Original On File
www.allsensors.com
Example DLHR - L02D
ID
1
2
TEMPERATURE RANGE
Lead Type
Description
SIP
DIP
J-Lead SMT
Example
COATING
ID Description
N No Coating
P Parylene Coating (1)
INTERFACE
ID Description
A Auto I2C/SPI
SUPPLY VOLTAGE
ID Description
V 1.68V to 3.6V
N
A
V
ID
6
7
8
RESOLUTION
Description
16 Bit
17 bit
18 bit
R
Description
±0.5 inH2O
±1 inH2O
±2 inH2O
±5 inH2O
±10 inH2O
±20 inH2O
±30 inH2O
±60 inH2O
0 to 0.5 inH2O
0 to 1 inH2O
0 to 2 inH2O
0 to 5 inH2O
0 to 10 inH2O
0 to 20 inH2O
0 to 30 inH2O
0 to 60 inH2O
PACKAGE
Lid Style
Description
Non-Barbed
Barbed
Signed Original On File
ID
F50D
L01D
L02D
L05D
L10D
L20D
L30D
L60D
F50G
L01G
L02G
L05G
L10G
L20G
L30G
L60G
Port Orientation
Description
Dual Port Same Side
Dual Port Opposite Side
www.allsensors.com
R
ID
DLHR
Base
ID
E
R
www.allsensors.com
w.allsensors.com
Signed Original On File
How to Order
6
Signed Original On File
J Lead SMT
Dual Port
Same Side
SIP (1)
DIP
N/A
E1NS
E1ND
E1NJ
Dual Port
Opposite Side
Single Port
(Gage)
Low Profile DIP
E1BS
E2ND
E2NJ
N/A
N/A
N/A
N/A
Low Profile DIP
N/A
N/A
N/A
N/A
N/A
N/A
E1BD
N/A
E2NS
J Lead SMT
E2BS
E2BD
N/A
N/A
(1) SPI is not available in SIP packages
DLHR Series Low Voltage Digital Pressure Sensors
Page 10
R
Original On File
DIP
R
www.allsensors.com
SIP (1)
Barbed Lid
Lead Style
Signed Original O
R
Non‐Barbed Lid
Lead Style
www.allsensors.com
ors.com
Port
Orientation
Signed Original On File
Table 6 - Available E-Series Package Configurations
www.allsensors.com
R
(1) Parylene coating not offered on J‐Lead Configurations
Pinout
1) Gnd
2) Vs
3) SDA
4) SCL
2.04
0.080
2.54
0.100
Pin 1 2 3 4
NOTES
1)Dimensions are in inches [mm]
2)For suggested pad layout, see drawing: PAD-01
E1BS Package
Pinout
1.14
0.045
Port B
1.68
0.066
10.80
0.425
15.75
0.620
10.80
0.425
0.25
0.010
Port A
2.73
0.107
[9.65]
0.380 (nom)
6.45
0.254
9.80
0.386
www.allsensors.com
0.64
0.025
2.11
0.083
12.70
0.500
4.88
0.192
0.51
0.020
2.54
0.100
Original On File
DS-0350 Rev A
Page 11
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ors.com
All Sensors
Signed Original O
NOTES
1)Dimensions are in inches [mm]
2)For suggested pad layout, see drawing: PAD-01
www.allsensors.com
R
Pin 1 2 3 4
R
Signed Original On File
9.15
0.360
Signed Original On File
1) Gnd
2) Vs
3) SDA
4) SCL
www.allsensors.com
R
e www.allsensors.com
0.51
0.020
a 16035 Vineyard Blvd. Morgan Hill, CA 95037
0.25
0.010
f 408 225 2079
10.79
0.425
Port A
2.73
0.107
[9.65]
0.380 (nom)
6.45
0.254
9.80
0.386
15.75
0.620
Port B
all sensors
2.10
0.082
p 408 225 4314
10.79
0.425
R
Signed Original On File
0.64
0.025
Signed Original On File
www.allsensors.com
12.70
0.500
4.88
0.192
www.allsensors.com
R
7.17
0.282
2.24
0.088
R
Signed Original On F
E1NS Package
R
www.allsensors.com
w.allsensors.com
Signed Original On File
Package Drawings
12.70
0.500
10.79
0.425
Port A
2.10
0.082
2.04
0.080
10.79
0.425
[9.65]
0.380 (nom)
2.73
0.107
15.75
0.620
Port B
0.25
0.010
2.54
0.100
0.51
0.020
Pin 1 2 3 4
NOTES
1)Dimensions are in inches [mm]
2)For suggested pad layout, see drawing: PAD-01
2.12
0.084
Port B
2.73
0.107
1.68
0.066
10.80
0.425
15.75
0.620
[9.65]
0.380 (nom)
9.80
0.386
1.14
0.045
10.80
0.425
Port A
0.25
0.010
2.11
0.083
12.70
0.500
2.24
0.088
9.15
0.360
0.64
0.025
0.51
0.020
2.54
0.100
R
Signed Original On File
1) Gnd
2) Vs
3) SDA
4) SCL
Signed Original On File
www.allsensors.com
Pinout
www.allsensors.com
R
E2BS Package
R
Signed Original On File
7.17
0.282
0.64
0.025
2.12
0.084
9.80
0.386
Signed Original On F
R
www.allsensors.com
1) Gnd
2) Vs
3) SDA
4) SCL
Signed Original On File
R
Pinout
R
E2NS Package
www.allsensors.com
www.allsensors.com
w.allsensors.com
Signed Original On File
Package Drawings (Cont’d)
Original On File
Page 12
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ors.com
DLHR Series Low Voltage Digital Pressure Sensors
Signed Original O
NOTES
1)Dimensions are in inches [mm]
2)For suggested pad layout, see drawing: PAD-01
www.allsensors.com
R
Pin 1 2 3 4
Pinout
2.10
0.082
Pin 1 2 3 4
0.46
0.018
5.72
0.225
www.allsensors.com
0.64
0.025
1.14
0.045
10.80
0.425
NOTES
1) Dimensions are in inches [mm]
2) For suggested pad layout, see drawing: PAD-03
All Sensors
1.68
0.066
10.80
0.425
15.75
0.620
16
0.630
6.45
0.254
8.89
0.350
(min)
Port A
2.73
0.107
0.25
0.010
1.48
0.058
9.80
0.386
Port B
2.54
0.100
Pin 1 2 3 4
DS-0350 Rev A
Page 13
R
Original On File
2.11
0.083
Signed Original O
R
12.70
0.500
4.88
0.192
R
Pin 8 7 6 5
9.15
0.360
www.allsensors.com
ors.com
1) Gnd
2) Vs
3) SDA/MOSI
4) SCL/SCLK
5) EOC
6) MISO
7) Not Connected
8) /SS
Signed Original On File
Signed Original On File
Pinout
www.allsensors.com
R
E1BD Package
f 408 225 2079
2.73
0.107
2.54
0.100
8.89
0.350
(min)
e www.allsensors.com
2.04
0.080
10.79
0.425
15.75
0.620
6.45
0.254
Port A
p 408 225 4314
NOTES
1) Dimensions are in inches [mm]
2) For suggested pad layout, see drawing: PAD-03
0.25
0.010
1.48
0.058
9.80
0.386
16
0.630
Port B
all sensors
10.79
0.425
a 16035 Vineyard Blvd. Morgan Hill, CA 95037
0.64
0.025
12.70
0.500
4.88
0.192
R
Signed Original On File
Pin 8 7 6 5
7.17
0.282
Signed Original On File
www.allsensors.com
5.72
0.225
www.allsensors.com
R
0.46
0.018
1) Gnd
2) Vs
3) SDA/MOSI
4) SCL/SCLK
5) EOC
6) MISO
7) Not Connected
8) /SS
2.24
0.088
R
Signed Original On F
E1ND Package
R
www.allsensors.com
w.allsensors.com
Signed Original On File
Package Drawings (Cont’d)
Pinout
1) Gnd
2) Vs
3) SDA/MOSI
4) SCL/SCLK
5) EOC
6) MISO
7) Not Connected
8) /SS
0.46
0.018
10.79
0.425
Port A
2.10
0.082
8.89
0.350
(min)
2.04
0.080
10.79
0.425
2.73
0.107
15.75
0.620
0.25
0.010
9.80
0.386
16
0.630
Port B
1.48
0.058
Signed Original On File
12.70
0.500
2.12
0.084
2.54
0.100
NOTES
1) Dimensions are in inches [mm]
2) For suggested pad layout, see drawing: PAD-03
Pin 1 2 3 4
0.46
0.018
2.12
0.084
1.68
0.066
10.80
0.425
Port B
2.73
0.107
15.75
0.620
16
0.630
0.25
0.010
9.80
0.386
1.48
0.058
NOTES
1) Dimensions are in inches [mm]
2) For suggested pad layout, see drawing: PAD-03
8.89
0.350
(min)
1.14
0.045
10.80
0.425
Port A
2.11
0.083
2.54
0.100
Pin 1 2 3 4
DLHR Series Low Voltage Digital Pressure Sensors
Page 14
R
Original On File
12.70
0.500
0.64
0.025
Signed Original O
R
Pin 8 7 6 5
9.15
0.360
R
Signed Original On File
5.72
0.225
www.allsensors.com
ors.com
1) Gnd
2) Vs
3) SDA/MOSI
4) SCL/SCLK
5) EOC
6) MISO
7) Not Connected
8) /SS
Signed Original On File
www.allsensors.com
Pinout
www.allsensors.com
R
E2BD Package
R
www.allsensors.com
Pin 8 7 6 5
0.64
0.025
Signed Original On File
7.17
0.282
www.allsensors.com
R
5.72
0.225
2.24
0.088
R
Signed Original On F
E2ND Package
R
www.allsensors.com
w.allsensors.com
Signed Original On File
Package Drawings (Cont’d)
2.54
0.100
Pin 1 2 3 4
NOTES
1)Dimensions are in inches [mm]
2)For suggested pad layout, see drawing: PAD-10
2.12
0.084
Pin 8 7 6 5
7.17
0.282
2.10
0.082
12.70
0.500
10.79
0.425
Port A
0.64
0.025
2.04
0.080
10.79
0.425
16
0.630
A
2.73
0.107
DETAIL A
SCALE 4 : 1
9.80
0.386
1.51
0.059
3.94
0.155
0.81
R0.032
15.75
0.620
Port B
0.25
0.010
1.27
0.050
2.54
0.100
Original On File
Page 15
R
ors.com
DS-0350 Rev A
Signed Original O
All Sensors
www.allsensors.com
R
Pin 1 2 3 4
NOTES
1)Dimensions are in inches [mm]
2)For suggested pad layout, see drawing: PAD-10
R
Signed Original On File
1) Gnd
2) Vs
3) SDA/MOSI
4) SCL/SCLK
5) EOC
6) MISO
7) Not Connected
8) /SS
Signed Original On File
www.allsensors.com
Pinout
www.allsensors.com
R
E2NJ Package
e www.allsensors.com
1.27
0.050
f 408 225 2079
A
p 408 225 4314
15.75
0.620
2.04
0.080
Port A
2.73
0.107
DETAIL A
SCALE 4 : 1
6.45
0.254
9.80
0.386
3.94
0.155
0.81
R0.032
10.79
0.425
Port B
0.25
0.010
all sensors
2.10
0.082
10.79
0.425
a 16035 Vineyard Blvd. Morgan Hill, CA 95037
0.64
0.025
12.70
0.500
4.88
0.192
R
Signed Original On File
Pin 8 7 6 5
7.17
0.282
1.51
0.059
Signed Original On F
R
www.allsensors.com
1) Gnd
2) Vs
3) SDA/MOSI
4) SCL/SCLK
5) EOC
6) MISO
7) Not Connected
8) /SS
Signed Original On File
R
Pinout
R
E1NJ Package
www.allsensors.com
www.allsensors.com
w.allsensors.com
Signed Original On File
Package Drawings (Cont’d)
2.54
0.100
(typ.)
2.54
0.100
(typ.)
1.27
0.050
2.54
0.100
(typ.)
Signed Original On F
R
www.allsensors.com
Signed Original On File
PAD-10
Product Labeling
All Sensors
DLHR-L02D
E1NS-C
NAV6
R16J21-14
Company
Part Number
Lot Number
www.allsensors.com
Example Device Label
Original On File
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R
ors.com
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Page 16
Signed Original O
DLHR Series Low Voltage Digital Pressure Sensors
www.allsensors.com
All Sensors reserves the right to make changes to any products herein. All Sensors 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.
R
Signed Original On File
Signed Original On File
PAD-03
PAD-01
14.99
0.590
R
R
16
0.630
Signed Original On File
www.allsensors.com
2.29
0.090
R
0.035~0.039 inch
(Finish Size)
0.035~0.039 inch
(Finished Size)
www.allsensors.com
R
w.allsensors.com
Signed Original On File
Suggested Pad Layout
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