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ABP2DVNT005PG2A3XX
Pressure Sensor, 5 psi, I2C Digital, Gauge, 3.3 VDC, Single Axial Barbless, 33.8 nA
⚠️ Reference pricing provided. In case of supply shortages, we will connect you with our trusted procurement partners to ensure your project's continuity.
- Manufacturer: HONEYWELL
- Product type: Pressure Transducers
- Port Style: Single Axial Barbless
- Product Range: ABP2 Series
- Sensor Output: I2C Digital
- Supply Current: 0.0338µA
- Voltage Rating: 3.3VDC
- Operating Pressure Max: 5psi
- Pressure Measurement Type: Gauge
| Delivery and price | |
|---|---|
| Units per pack | 20 |
| Price | 19.33 € |
| Current stock | 10+ |
| Lead time | 7 days |
Datasheet
_32350268 Issue D_
## ABP2 SERIES
## Board Mount Pressure Sensors
## **High Accuracy, Compensated/Amplified 6 mbar to 12 bar | 600 Pa to 1.2 MPa | 2 inH2O to 175 psi Digital or Analog Output, Liquid Media Capable**
## DESCRIPTION
The ABP2 Series are piezoresistive silicon pressure sensors offering a digital or analog output for reading pressure over the specified full scale pressure span and temperature range. They are calibrated and temperature compensated for sensor offset, sensitivity, temperature effects and accuracy errors (which include non-linearity, repeatability and hysteresis) using an on-board Application Specific Integrated Circuit (ASIC). Calibrated output values for pressure and temperature are updated at approximately 200 Hz. All products are designed and manufactured according to ISO 9001 standards. The liquid media option includes an additional gel coating to protect the electronics under port P1, which enables use with non-corrosive liquids (e.g. water and saline) and in applications where condensation can occur. The ABP2 Series is available in tube packaging. Pocket tape and reel packaging is available upon request.
## VALUE TO CUSTOMERS
- Simplifies design-in: Small size
saves room on the PC board (PCB), simplifying design in smaller and lower power devices. Meets IPC/JEDEC J-STD-020E Moisture Sensitivity Level
- 1 requirements:
- Allows avoidance of thermal and mechanical damage during solder reflow attachment and/or repair that lesser rated sensors may incur.
- Allows for unlimited shelf life when stored at <30ºC/85 %RH (simplifying storage and reducing scrap).
- Eliminates lengthy bakes prior to reflow.
- Allows for lean manufacturing due to stability and usability shortly after reflow.
- Cost-effective: Small size helps engineers reduce design and manufacturing costs while maintaining enhanced performance and reliability of the systems they design.
- Accurate: Total Error Band (TEB) and wide pressure range enable engineers to optimize system performance by improving resolution and system accuracy.
- Flexible: Supply voltage range, variety of pressure units, types and ranges, output options, and wide operating temperature range simplify use in the application
- Versatile: Wet-media compatibility, low power, and temperature output options make the sensor a versatile choice for Internet of Things applications
## DIFFERENTIATION
- Application-specific design ensures suitability for a wide array of customer requirements.
- Digital output allows the sensor to be directly plugged into the customer’s circuitry without requiring major design changes
- Total Error Band (see Figure 1):
- Provides a more comprehensive measurement of performance over the compensated temperature range, which minimizes testing and calibrating every sensor, thereby potentially reducing manufacturing cost; improves sensor accuracy and offers ease of sensor interchangeability due to minimal part-to-part variation.
- Improves sensor accuracy
- Offers ease of sensor interchangeability due to minimal part-to-part variation
## POTENTIAL APPLICATIONS
- Medical: Ventilators/portable
ventilators, CPAP, blood analysis, blood pressure monitoring, breast pumps, drug dosing, hospital beds, massage machines, oxygen concentrators, patient monitoring, sleep apnea equipment, urine analyzers and wound therapy
- Industrial: HVAC transmitters, life sciences, material handling, pneumatic control and regulation, process gas monitoring and valve positioning/ positioners
- Commercial: Air beds, coffee makers, washing machines, level measurement, dish washers, vacuum cleaners, hand dryers and rice cookers
- Transportation: Air brakes, CNG monitoring, fork lifts and fuel level measurement
## FEATURES
- Total Error Band (see Figure 1): As low as ±1.5 %FSS
- Liquid media option: Compatible with a variety of liquid media
- Long-term stability: as low as ±0.2 %FSS
- Accuracy: ±0.25 %FSS BFSL
- Wide pressure range: 6 mbar to 12 bar | 600 Pa to 1.2 MPa | 2 inH2O to 175 psi
- High burst pressures
- Wide operating temperature range of -40°C to 110°C [-40°F to 230°F]
- Calibrated over wide temperature range of -40°C to 110°C [-40°F to 230°F]
- 24-bit digital I[2] C or SPI-compatible output
- Ratiometric analog output
- IoT (Internet of Things) ready interface
- Ultra-low power consumption (as low as 0.01 mW typ. average power, 1 Hz measurement frequency)
- Meets IPC/JEDEC J-STD-020E Moisture Sensitivity Level 1
- REACH and RoHS compliant
- Temperature output available
- NSF-169, LFGB and BPA compliant materials
**Honeywell offers a variety of board mount pressure sensors for use in potential medical and industrial applications. To view the entire product portfolio, click here.**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## TABLE OF CONTENTS
|TOTAL ERROR BAND 3|
|---|
|GENERAL SPECIFICATIONS 4|
|POWER CONSUMPTION AND STANDBY MODE 7|
|DIGITAL OUTPUT VERSIONS 7|
|ANALOG OUTPUT VERSIONS 9|
|NOMENCLATURE AND ORDER GUIDE 10|
|PRESSURE RANGE SPECIFICATIONS 11|
|DIMENSIONAL DRAWINGS 19|
|1 0 GENERAL INFORMATION 26|
|2 0 PINOUT AND FUNCTIONALITY 26|
|3 0 START-UP TIMING 26|
|4 0 POWER SUPPLY REQUIREMENT 26|
|5 0 REFERENCE CIRCUIT DESIGNS 27|
|5 1<br>DIGITAL OUTPUT VERSIONS 27|
|5 2<br>ANALOG OUTPUT VERSIONS 27|
|5 3<br>BYPASS CAPACITOR USE 27|
|6 0 I2C COMMUNICATIONS 28|
|6 1<br>I2C BUS CONFIGURATION 28|
|6 2<br>I2C DATA TRANSFER 28|
|6 3<br>I2C SENSOR ADDRESS 28|
|6 4<br>I2C PRESSURE AND TEMPERATURE READING 28|
|6 5<br>I2C STATUS BYTE 29|
|6 6<br>I2C COMMUNICATIONS 29|
|6 7<br>I2C TIMING AND LEVEL PARAMETERS 30|
|6 8<br>REFERENCE CODE (ARDUINO/GENUINO UNO) FOR I2C INTERFACE 31|
|7 0 SPI COMMUNICATIONS 32|
|7 1<br>SPI DEFINITION 32|
|7 2<br>SPI DATA TRANSFER 32|
|7 3<br>SPI PRESSURE AND TEMPERATURE READING 32|
|7 4<br>SPI STATUS BYTE 33|
|7 5<br>SPI COMMUNICATIONS 34|
|7 6<br>SPI TIMING AND LEVEL PARAMETERS 35|
|7 7<br>REFERENCE CODE (ARDUINO/GENUINO UNO) FOR SPI INTERFACE 35|
|8 0 ABP2 SERIES CALCULATIONS 36|
|8 1<br>DIGITAL OUTPUT VERSIONS 36|
|8 2<br>ANALOG OUTPUT VERSIONS 38|
|9 0 RECOMMENDED PNEUMATIC SENSOR CONNECTIONS 39|
|9 1<br>TUBING 39|
|9 2<br>O-RING MANIFOLD DESIGNS 40|
|ADDITIONAL INFORMATION back cover|
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **2**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## TOTAL ERROR BAND
Total Error Band (TEB) is a single specification that includes the major sources of sensor error. TEB should not be confused with accuracy, which is actually a component of TEB. TEB is the worst error that the sensor could experience.
Honeywell uses the TEB specification in its datasheet because it is the most comprehensive measurement of a sensor’s true accuracy. Honeywell also provides the accuracy specification in order to provide a common comparison with competitors’ literature that does not use the TEB specification.
Many competitors do not use TEB—they simply specify the accuracy of their device. Their accuracy specification, however, may exclude certain parameters. On their datasheet, the errors are listed individually. When combined, the total error (or what would be TEB) could be significant.
FIGURE 1 . TOTAL ERROR BAND
## **Sources of Error**
|**Sources of Error**||
|---|---|
|Offset|Total<br>Error<br>Band<br>**Accuracy**<br>**BFSL**|
|Full Scale Span||
|Pressure Non-Linearity||
|Pressure Hysteresis||
|Pressure Non-Repeatability||
|Thermal Effect on Offset||
|Thermal Effect on Span||
|Thermal Hysteresis||
## TABLE 1. ABSOLUTE MAXIMUM SPECIFICATIONS[1]
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CHARACTERISTIC MINIMUM MAXIMUM UNIT<br>Supply voltage (Vsupply):<br> digital output -0.3 3.6 Vdc<br> analog output -0.3 6.0<br>Voltage on any pin -0.3 Vsupply + 0.3 Vdc<br>Digital clock frequency:<br> I [2] C 100 400 kHz<br> SPI 50 800<br>ESD susceptibility (human body model) 2 — kV<br>Storage temperature range -40 [-40] 125 [257] °C [°F]<br>Soldering time and temperature:<br> lead (DIP) 4 s max. at 250°C [482°F]<br>peak reflow (SMT, Leadless SMT) 15 s max. at 250°C [482°F]<br>**----- End of picture text -----**<br>
1Absolute maximum ratings are the extreme limits the device will withstand without damage.
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **3**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## TABLE 2. OPERATING SPECIFICATIONS
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ANALOG DIGITAL<br>CHARACTERISTIC UNIT<br>MINIMUM TYPICAL MAXIMUM MINIMUM TYPICAL MAXIMUM<br>Supply voltage (Vsupply) [1]<br> 3.3 Vdc 3.0 3.3 3.6 1.8 3.3 3.6 Vdc<br> 5.0 Vdc 4.75 5.0 5.25 — — —<br>Current consumption:<br> I [2] C sleep/standby mode 3.0 33.8 211.0 3.0 33.8 211.0 nA<br> SPI sleep/standby mode 13.0 43.8 221.0 13.0 43.8 221.0<br>Power consumption — 9.5 — — 3.1 — mW<br>Operating temperature range [2] -40 [-40] — 110 [230] -40 [-40] — 110 [230] °C [°F]<br>Compensated temperature range [3] -40 [-40] — 110 [230] -40 [-40] — 110 [230] °C [°F]<br>Startup time [4] — — 5 — — 2.5 ms<br>Clipping limit for analog version:<br> upper — — 97.5 — — — Vsupply<br> lower 2.5 — — — — —<br>Update/data rate — 1000 — 161 204 — samples/s<br>SPI/I [2] C voltage level:<br> low — — — — — 20 %Vsupply<br> high — — — 80 — —<br>Pull up on SDA, SCL — — — 1 — — kOhm<br>Total Error Band [5] :<br> 0°C to 50°C — — ±1.5 — — ±1.5 %FSS [6]<br> -20°C to 85°C — — ±3.0 — — ±3.0 %FSS [6]<br> -40°C to 110°C — — ±4.5 — — ±4.5 %FSS [6]<br>Accuracy [7] — — ±0.25 — — ±0.25 %FSS BFSL<br>0.03 — — — — — %FSS<br>Resolution<br>— — — 14 — — bits<br>Temperature output error [8] — — — — ±5 — °C<br>**----- End of picture text -----**<br>
1 Sensors are not reverse polarity protected. Incorrect application of supply voltage or ground to the wrong pin may cause electrical failure.
> 2 **Operating temperature range:** The temperature range over which the sensor will produce an output proportional to pressure.
> 3 **Compensated temperature range:** The temperature range over which the sensor will produce an output proportional to pressure within the specified performance limits (see Total Error Band).
> 4 **Startup Time:** For analog versions: 5 ms to data ready. For digital versions: 2.5 ms for power up to receive the first measurement command. Refer to Section 3.0, Tables 21, 22 and 25 for further details on communication timing.
> 5 **Total Error Band:** The maximum deviation from the ideal transfer function over the entire compensated temperature and pressure range. Includes all errors due to offset, full scale span, pressure non-linearity, pressure hysteresis, repeatability, thermal effect on offset, thermal effect on span and thermal hysteresis.
> 6 **Full Scale Span (FSS):** The algebraic difference between the output signal measured at the maximum (Pmax.) and minimum (Pmin.) limits of the pressure range (see Figure 2).
> 7 **Accuracy:** The maximum deviation in output from a Best Fit Straight Line (BFSL) fitted to the output measured over the pressure range at 25°C [77°F]. Includes all errors due to pressure non-linearity, pressure hysteresis and non-repeatability.
> 8 **Temperature Output Error:** The error in Temperature Output reading relative to a thermal reference standard over a temperature range of -40°C to 125°C.
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **4**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## TABLE 3. ENVIRONMENTAL SPECIFICATIONS
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CHARACTERISTIC PARAMETER<br>Humidity:<br> all external surfaces 0 %RH to 95 %RH, non-condensing<br> internal surfaces of liquid media options “T", "V", "G" and "F" 0 %RH to 100 %RH, condensing<br> internal surfaces of dry gases options "N" and "D" 0 %RH to 95 %RH, non-condensing<br>Vibration 15 g, 10 Hz to 2 kHz<br>Shock 75 g, 6 ms duration<br>Life [1] 1 million full scale pressure cycles minimum<br>J-STD-020-E Moisture Sensitivity Level 1 (unlimited shelf life<br>Solder reflow<br>when stored at <30°C/85 %RH)<br>Certification (silicone gel coating option, Port 1 only) [2] NSF169, BPA Free, LFGB<br>**----- End of picture text -----**<br>
1 Life may vary depending on specific application in which the sensor is utilized.
- 2 Sensor materials have been tested and certified for the food safety standards noted.
## TABLE 4. WETTED MATERIALS[1]
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PRESSURE PORT 1 (P1)<br>COMPONENT PRESSURE PORT 2 (P2)<br>DRY GAS OPTION LIQUID MEDIA OPTION<br>Ports and covers high temperature polyamide, 304 SST high temperature polyamide<br>Substrate FR4 — FR4<br>Adhesives epoxy, silicone epoxy, silicone gel, fluorosilicone gel epoxy, silicone<br>Electronic components silicon, glass, gold, aluminum — silicon<br>**----- End of picture text -----**<br>
1 Contact Honeywell customer service for detailed material information.
## TABLE 5. SENSOR PRESSURE TYPES
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PRESSURE TYPE DESCRIPTION<br>Absolute Output is proportional to the difference between pressure applied and a built-in vacuum reference.<br>Differential Output is proportional to the difference between the applied pressure to each port (Port1 - Port2)<br>Gage Output is proportional to the difference between applied pressure and atmospheric (ambient) pressure.<br>**----- End of picture text -----**<br>
TABLE 6. SENSOR OUTPUT AT SIGNIFICANT PERCENTAGES
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DIGITAL VERSIONS ANALOG VERSIONS<br>OUTPUT<br>(%) COUNTS VSUPPLY<br>DECIMAL HEX 3 .3 V 5 .0 V<br>0 0 0X000000 0.0 0.0<br>10 1677722 0X19999A 0.33 0.5<br>30 5033165 0X4CCCCC 0.99 1.5<br>50 8388608 0X800000 1.65 2.5<br>70 11744051 0XB33333 2.31 3.5<br>90 15099494 0XE66666 2.97 4.5<br>100 16777215 0XFFFFFF 3.3 5.0<br>**----- End of picture text -----**<br>
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **5**
ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
FIGURE 2 . TRANSFER FUNCTION FOR DIGITAL OUTPUT VERSIONS
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Compensated Pressure Range<br>100<br>90<br>80<br>70<br>60 Ideal<br>50<br>1.5% Total Error Band<br>40<br>30<br>20<br>10<br>0<br>0 1 2 3 4 5 6 7 8 9 10<br>Pmin. Pressure Pmax.<br> counts)<br>24<br>Output (% of 2<br>**----- End of picture text -----**<br>
Pressure example 1: Transfer Function A (10% to 90%)
Output (% of 2[24] counts) = 80% x (Pressureapplied - Pmin.) + 10% Pmax. - Pmin.
## Pressure example 2: Transfer Function B (30% to 70%)
Output (% of 2[24] counts) = 40% x (Pressureapplied - Pmin.) + 30% Pmax. - Pmin.
FIGURE 3 . TRANSFER FUNCTION FOR ANALOG OUTPUT VERSIONS
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Compensated Pressure Range<br>100<br>90<br>80<br>70<br>60 Ideal<br>50<br>1.5% Total Error Band<br>40<br>30<br>20<br>10<br>0<br>0 1 2 3 4 5 6 7 8 9 10<br>Pmin. Pressure (example unit) Pmax.<br>Output (V) = 0.8 x Vsupply x (Pressureapplied - Pmin.) + 0.10 x Vsupply<br>Pmax. - Pmin.<br>Output (% Vsupply)<br>**----- End of picture text -----**<br>
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **6**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## POWER CONSUMPTION AND STANDBY MODE
## DIGITAL OUPTUT VERSIONS
The sensor is normally in Standby Mode and is only turned on in response to a user command, thus minimizing power consumption. Upon receiving the user command, the sensor wakes up from Standby Mode, runs a measurement in Active State, and automatically returns to Standby Mode, awaiting the next command. The resulting sensor power consumption is a function of the sampling rate (samples per second) as shown in Tables 7 and 8 and Figures 4 and 5.
TABLE 7. DIGITAL OUTPUT VERSIONS AVERAGE POWER CONSUMPTION AT 1.8 VSUPPLY (ASSUMES COMMAND AAHEX)
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SAMPLING<br>AVERAGE POWER ACTIVE TIME ACTIVE POWER IDLE TIME IDLE POWER<br>RATE<br>(mW) (ms) (mW) (ms) (mW)<br>(samples per second)<br>Minimum Average Power<br>1 0.0068 3.625 1.884 996.375 0.0000054<br>2 0.0137 7.25 1.884 992.75 0.0000054<br>5 0.0341 18.125 1.884 981.875 0.0000054<br>10 0.0683 36.25 1.884 963.75 0.0000054<br>20 0.1366 72.5 1.884 927.5 0.0000054<br>50 0.3414 181.25 1.884 818.75 0.0000054<br>100 0.6829 362.5 1.884 637.5 0.0000054<br>160 1.0926 580 1.884 420 0.0000054<br>Typical Average Power<br>1 0.0094 4.157 2.248 995.843 0.00006084<br>2 0.0187 8.314 2.248 991.686 0.00006084<br>5 0.0468 20.785 2.248 979.215 0.00006084<br>10 0.0935 41.57 2.248 958.43 0.00006084<br>20 0.1870 83.14 2.248 916.86 0.00006084<br>50 0.4673 207.85 2.248 792.15 0.00006084<br>100 0.9345 415.7 2.248 584.3 0.00006084<br>160 1.4592 665.12 2.248 334.88 0.00006084<br>Maximum Average Power<br>1 0.0129 4.839 2.588 995.161 0.0003798<br>2 0.0254 9.678 2.588 990.322 0.0003798<br>5 0.0630 24.195 2.588 975.805 0.0003798<br>10 0.1256 48.39 2.588 951.61 0.0003798<br>20 0.2508 96.78 2.588 903.22 0.0003798<br>50 0.6264 241.95 2.588 758.05 0.0003798<br>100 1.2524 483.9 2.588 516.1 0.0003798<br>160 2.0036 774.24 2.588 225.76 0.0003798<br>FIGURE 4 . DIGITAL OUTPUT VERSIONS AVERAGE POWER CONSUMPTION VS SAMPLING RATE AT 1 .8 VSUPPLY<br>2.25<br>2.00 Maximum average power (mW)<br>1.75<br>1.50 Typical average power (mW)<br>1.25<br>1.00 Minimum average power (mW)<br>0.75<br>0.50<br>0.25<br>0.00<br>0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160<br>Sampling Rate (samples per second)<br>Average Power Consumption (mW)<br>**----- End of picture text -----**<br>
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **7**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
TABLE 8 . DIGITAL OUTPUT VERSIONS AVERAGE POWER CONSUMPTION AT 3.3 VSUPPLY (ASSUMES COMMAND AAHEX)
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SAMPLING<br>AVERAGE POWER ACTIVE TIME ACTIVE POWER IDLE TIME IDLE POWER<br>RATE<br>(mW) (ms) (mW) (ms) (mW)<br>(samples per second)<br>Minimum Average Power<br>1 0.0114 3.625 3.134 996.375 0.0000099<br>2 0.0227 7.25 3.134 992.75 0.0000099<br>5 0.0568 18.125 3.134 981.875 0.0000099<br>10 0.1136 36.25 3.134 963.75 0.0000099<br>20 0.2272 72.5 3.134 927.5 0.0000099<br>50 0.5680 181.25 3.134 818.75 0.0000099<br>100 1.1361 362.5 3.134 637.5 0.0000099<br>160 1.8177 580 3.134 420 0.0000099<br>Typical Average Power<br>1 0.0156 4.157 3.729 995.843 0.00011154<br>2 0.0311 8.314 3.729 991.686 0.00011154<br>5 0.0776 20.785 3.729 979.215 0.00011154<br>10 0.1551 41.57 3.729 958.43 0.00011154<br>20 0.3101 83.14 3.729 916.86 0.00011154<br>50 0.7751 207.85 3.729 792.15 0.00011154<br>100 1.5501 415.7 3.729 584.3 0.00011154<br>160 2.4800 665.12 3.729 334.88 0.00011154<br>Maximum Average Power<br>1 0.0214 4.839 4.275 995.161 0.0006963<br>2 0.0421 9.678 4.275 990.322 0.0006963<br>5 0.1041 24.195 4.275 975.805 0.0006963<br>10 0.2075 48.39 4.275 951.61 0.0006963<br>20 0.4144 96.78 4.275 903.22 0.0006963<br>50 1.0349 241.95 4.275 758.05 0.0006963<br>100 2.0692 483.9 4.275 516.1 0.0006963<br>160 3.3103 774.24 4.275 225.76 0.0006963<br>**----- End of picture text -----**<br>
FIGURE 5 . DIGITAL OUPTUT VERSIONS AVERAGE POWER CONSUMPTION VS SAMPLING RATE AT 3 .3 VSUPPLY
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3.50<br>3.25 Maximum average power (mW)<br>3.00<br>2.75<br>2.50 Typical average power (mW)<br>2.25<br>2.00<br>1.75 Minimum average power (mW)<br>1.50<br>1.25<br>1.00<br>0.75<br>0.50<br>0.25<br>0.00<br>0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160<br>Sampling Rate (samples per second)<br>Average Power Consumption (mW)<br>**----- End of picture text -----**<br>
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **8**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
ANALOG OUTPUT VERSIONS (SEE TABLE 9 AND FIGURE 6 .)
TABLE 9. ANALOG OUTPUT VERSIONS POWER CONSUMPTION
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VSUPPLY ACTIVE POWER MINIMUM POWER AVERAGE POWER MAXIMUM POWER<br>(V) (mW) (mW) (mW) (mW)<br>2.8 3.36 3.3 3.4 3.5<br>3.3 4.62 4.4 4.5 4.7<br>5 9.5 9.1 9.2 9.4<br>5.5 11 10.9 11.0 11.1<br>**----- End of picture text -----**<br>
FIGURE 6 . ANALOG OUTPUT VERSIONS AVERAGE POWER CONSUMPTION
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12<br>11 Typical average power (mW)<br>10<br>9<br>8<br>7<br>6<br>5<br>4<br>3<br>2<br>1<br>0<br>2.5 2.8 3.1 3.4 3.7 4 4.3 4.6 4.9 5.2 5.5<br>Vsupply (V)<br>Average Power Consumption (mW)<br>**----- End of picture text -----**<br>
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **9**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## FIGURE 7 . NOMENCLATURE AND ORDER GUIDE
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||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|For example, ABP2DANT001BA2A3XX defines an ABP2 Series Amplified Basic Pressure Sensor, DIP package, plastic single axial|
|barbed pressure port, liquid media, food-grade silicone gel, no diagnostics, 1 bar absolute pressure range, digital I2C, address|
|0x28 output type, 10% to 90% of 224 counts (digital) transfer function, 3.3 Vdc supply voltage.|
|ABP2 D AN T 001BA 2 A 3 XX|
|Product Series|Future|
|XX|
|ABP2 Amplified Basic|
|Package|Supply Voltage|[4]|
|3|3.3 Vdc|
|D|DIP (Dual Inline Pin)|
|5|5.0 Vdc|
|M|SMT (Surface Mount Technology)|
|L|Leadless SMT|Transfer Function|
|A|10% to 90% of Vsupply (analog), 2|[24]|counts (digital)|
|Pressure Port|[1]|B|30% to 70% of 2|[24]|counts (digital)|
|DIP|SMT|Leadless SMT|
|NN|No port|NN|No port|NN|No port|
|Output Type|
|A|Analog|3|I|[2]|C, Address 0x38|
|S|SPI|4|I|[2]|C, Address 0x48|
|0|I|[2]|C, Address 0x08|5|I|[2]|C, Address 0x58|
|1|I|[2]|C, Address 0x18|6|I|[2]|C, Address 0x68|
|AN|Single axial|AN|Single axial|AN|Single axial|2|I|[2]|C, Address 0x28|7|I|[2]|C, Address 0x78|
|barbed port|barbed port|barbed port|Pressure Range|
|6 mbar to 12 bar|600 Pa|to 1.2 MPa|2 inH20 to 175 psi|
|Qo|oS|Absolute|Absolute|Absolute|
|eer|He|001BA|1 bar|100KA|100 kPa|015PA|15 psi|
|1.6BA|1.6 bar|160KA|160 kPa|030PA|30 psi|
|bry|2.5BA|2.5 bar|TT|250KA|—————|250 kPa|060PA|60 psi|
|VN|Single axial barbless port|VN|Single axial barbless port|VN|Single axial barbless port|004BA|4 bar|_|400KA|400 kPa|El|100PA|100 psi|ae|
|006BA|6 bar|600KA|600 kPa|150PA|150 psi|
|J:|&|010BA|10 bar|001GA|1.2 MPa|175PA|175 psi|
|012BA|12 bar|
||a|006MD|Differential|±6 mbar|600LD|Differential|±600 Pa|002ND|Differential|±2 inH20|
|SN|Single axial straightbarbless port|SN|Single axial straightbarbless port|SN|Single axial straight barbless port|010MD|±10 mbar|001KD|±1 kPa|004ND|±4 inH20|
|7|i=|016MD 025MD|±16 mbar±25 mbar|—|1.6KD2.5KD|±1.6 kPa±2.5 kPa|OO|005ND 010ND|±5 inH±10 inH2020|
|040MD|±40 mbar|004KD|±4 kPa|020ND|±20 inH20|
|060MD|±60 mbar|006KD|±6 kPa|030ND|±30 inH20|
|100MD|±100 mbar|010KD|±10 kPa|001PD|±1 psi|
|160MD|±160 mbar|016KD|±16 kPa|005PD|±5 psi|
|RN|Single radial|RN|Single radial|250MD|±250 mbar|025KD|±25 kPa|015PD|±15 psi|
|barbed port|barbed port|
|400MD|±400 mbar|=|040KD|±40 kPa|a|030PD|±30 psi|
|1|=|&|600MD|±600 mbar|_|060KD|±60 kPa|060PD|±60 psi|
|8|Sail|PZ,|001BD1.6BD|±1 bar±1.6 bar|—|100KD160KD|±100 kPa±160 kPa|
|2.5BD|±2.5 bar|250KD|±250 kPa|
|||“OR|004BD|±4 bar|—|400KD|±400 kPa|Cl||
|RR|Dual radialbarbed ports,same side|RR|Dual radialbarbed ports,same side|Gage|5|Gage|5|Gage|5|
|ox|q|010MG|10 mbar|=|001KG|1 kPa|ae|004NG|4 inH20|
|016MG|16 mbar|1.6KG|1.6 kPa|005NG|5 inH20|
|025MG|25 mbar|2.5KG|2.5 kPa|010NG|10 inH20|
|040MG|40 mbar|004KG|4 kPa|020NG|20 inH20|
|060MG|60 mbar|006KG|6 kPa|030NG|30 inH20|
|DA|Dual axial|DA|Dual axial|100MG|100 mbar|010KG|10 kPa|001PG|1 psi|
|barbed ports,same side|barbed ports,same side|160MG|160 mbar|016KG|16 kPa|005PG|5 psi|
|250MG|250 mbar|025KG|25 kPa|015PG|15 psi|
|7S.|OH)|¥|400MG|400 mbar|040KG|40 kPa|030PG|30 psi|
|600MG|600 mbar|ela|060KG|60 kPa|060PG|60 psi|
|Co|er|001BG|1 bar|=|100KG|100 kPa|100PG|100 psi|
|mg|||A|SoS|1.6BG|1.6 bar|_|160KG|160 kPa|150PG|150 psi|
|2.5BG|2.5 bar|250KG|250 kPa|175PG|175 psi|
|Product Option|[2,3,4]|004BG|4 bar|400KG|400 kPa|
|N|Dry gases only, no diagnostics|006BG|6 bar|600KG|600 kPa|
|D|Dry gases only, diagnostics on|008BG|8 bar|800KG|800 kPa|
|T|Liquid media, food-grade silicone gel, no diagnostics|010BG|10 bar|001GG|1 MPa|
|V|Liquid media, food-grade silicone gel, diagnostics on|012BG|12 bar|1.2GG|1.2 Mpa|
|G|Liquid media, fluorosilicone gel, no diagnostics|
|F|Liquid media, fluorosilicone gel, diagnostics on|
**----- End of picture text -----**<br>
1 The “DA” Pressure Port is only available with Product Options “N” and “D”. The “DA” Pressure Port is available in standard listings with pressure ranges up to 400 mbar | ±160 mbar. For higher pressure ranges, please consult the factory.
- 2 Product Options “N” and “D” are only available with gage pressure ranges 10 mbar to 40 mbar | 1kPa to 4 kPa | 4 inH2O to 20 inH2O and differential pressure ranges ±6 mbar to ±25 mbar | ±1 kPa to ± 2.5 kPa | ±2 inH2O to ±10 inH2O.
- 3 Product Options “G” and “F” are only available with pressure ranges 600 mbar I 15 psi gage and ±250 mbar | ±5 psi differential and above. See Tables 14, 16, and 18 for pressure range specifications when using fluorosilicone gel.
- 4 5 Vdc supply voltage and diagnostic options are only available with analog output listings. They are not available with digital output listings.
- 5 10 mbar, 1 kPa, and 4 inH2O pressure ranges are limited to 11 bit resolution for analog output listings.
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **10**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## SELECT ABP2 SERIES SENSORS MOUNTED ON BREAKOUT BOARDS
Breakout boards, with or without the sensor premounted (see Figure 8 and Tables 10, 11, and 12) are designed for use with the Honeywell SEB Sensor Evaluation Kit.
FIGURE 8 . APB2 SERIES SENSORS AND BREAKOUT BOARDS
SN Leadless SMT sensor premounted on breakout board (ABP2LSNT060PGSA3BB)
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Breakout board<br>(ABP2-BREAKOUT-BRD)<br>**----- End of picture text -----**<br>
TABLE 10. ORDER GUIDE FOR ABP2 SERIES SENSORS AND BREAKOUT BOARDS
|CATALOG LISTING|DESCRIPTION|
|---|---|
|ABP2MRRN004ND2B3BB|ABP2 Series sensor with SMT package, plastic dual radial barbed ports, same side pressure port,<br>dry gases only, no diagnostics, ±4 inH2O differential pressure range, I2C address 0x28, 30% to<br>70% of 224counts digital transfer function, 3.3 Vdc supply premounted on breakout board|
|ABP2MDAN004ND2B3BB|ABP2 Series sensor with SMT package, plastic dual axial barbed ports same side, dry gases only,<br>no diagnostics, ±4 inH2O differential pressure range, I2C address 0x28, 30% to 70% of 224counts<br>digital transfer function, 3.3 Vdc supply premounted on breakout board|
|ABP2MVNT400MG2A3BB|ABP2 Series sensor with leaded SMT package, metal single axial tapered pressure port, liquid<br>media, food-grade silicone gel, no diagnostics, 400 mbar gage pressure range, I2C address 0x28,<br>10% to 90% of 224counts digital transfer function, 3.3 Vdc supply premounted on breakout board|
|ABP2LANT001PG2A3BB|ABP2 Series sensor with leadless SMT package, plastic single axial barbed pressure port, liquid<br>media, food-grade silicone gel, no diagnostics, 1 psi gage pressure range, I2C address 0x28,<br>10% to 90% of 224counts digital transfer function, 3.3 Vdc supply premounted on breakout board|
|ABP2LSNT060PGSA3BB|ABP2 Series sensor with leadless SMT package, metal single axial straight barbless pressure port,<br>liquid media, food-grade silicone gel, no diagnostics, 60 psi gage pressure range, SPI output type,<br>10% to 90% of 224counts digital transfer function, 3.3 Vdc supply premounted on breakout board|
|ABP2LANT001BA2A3BB|ABP2 Series sensor with leadless SMT package, plastic single axial barbed pressure port, liquid<br>media, food-grade silicone gel, no diagnostics, 1 bar absolute pressure range, I2C address 0x28,<br>10%to 90% of 224counts digital transfer function, 3.3 Vdc supply premounted on breakout board|
|ABP2-BREAKOUT-BRD|Bare breakout board for use with SMT and leadless SMT packages with AN, SN, VN, NN, RN,<br>or RR pressure ports|
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **11**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## SELECT ABP2 SERIES SENSORS MOUNTED ON BREAKOUT BOARDS (CONTINUED)
## TABLE 11. BREAKOUT BOARD ASSEMBLY DETAILS
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SL REF MANUFACTURER<br>DESCRIPTION POPULATE DESCRIPTION<br>NUMBER DESIGNATOR PART NUMBER<br>a decoupling capacitor,<br>capacitor, ceramic, 0.1 μ F,<br>1 C1 GCM155R71C104KA55J populated breakout board shipped<br>16 V, X7R, 10% SMD 0402<br>with this part assembled<br>2 C2 capacitor, ceramic SMD 0402 NA DNP do not populate<br>optional pull-up<br>resistors for I [2] C output<br>resistor SMD 0402<br>(not populated on<br>3 R1, R2 NA DNP the breakout board);<br>SCL line/R1 and SDA line R2<br>recommended pull-up<br>resistor value: 1 kOhm to<br>10 kOhm<br>jumper resistor, do not<br>4 R3 resistor, SMD 0402 NA DNP<br>populate<br>connector, header, 6 pin,<br>5 P1 straight, 2,54 mm pitch 826629-6 populated 6 pin connector<br>through hole<br>respective ABP2 sensor<br>6 U1 ABP2 sensor ABP2 populated<br>mounted<br>**----- End of picture text -----**<br>
## TABLE 12. BREAKOUT BOARD PINOUTS
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PIN NUMBER I [2] C OUTPUT SPI OUTPUT<br>1 VDD VDD<br>2 SCL SCLK<br>3 EOC MISO<br>4 SDA MOSI<br>5 GND GND<br>6 NC SS<br>**----- End of picture text -----**<br>
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **12**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
TABLE 13. PRESSURE RANGE SPECIFICATIONS: 6 MBAR TO 12 BAR FOR PRODUCT OPTIONS "N", "D", "T" AND "V" ONLY
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PRESSURE BURST TOTAL ERROR BAND [4] TYPICAL<br>OVERPRESSURE [1] TRANSFER<br>RANGE PRESSURE [2] (%FSS) OFFSET LONG-TERM<br>COMMON FUNCTION<br>PRESSURE SHIFT STABILITY<br>UNIT MODE 0°C -20°C -40°C FOR<br>RANGE PORT 1 PORT 2 PORT 1 PORT 2 WITH (1000 HR)<br>P P PRESSURE [3] TO TO TO DIGITAL<br>MIN . MAX . (P1) (P2) (P1) (P2) 50°C 85°C 110°C REFLOW (%FSS) VERSIONS<br>(%FSS)<br>Absolute<br>001BA 0 1 bar 16 — 25 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>1.6BA 0 1.6 bar 16 — 25 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>2.5BA 0 2.5 bar 16 — 25 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>Differential<br>006MD -6 6 mbar 700 700 7000 1000 — ±2.0 ±3.5 — ±1.0 ±0.3 B<br>010MD -10 10 mbar 700 700 7000 1000 — ±2.0 ±3.5 — ±1.0 ±0.3 B<br>016MD -16 16 mbar 700 700 7000 1000 — ±2.0 ±3.5 — ±1.0 ±0.3 A<br>025MD -25 25 mbar 700 700 7000 1000 — ±2.0 ±3.5 — ±1.0 ±0.3 A<br>040MD -40 40 mbar 2000 1000 7000 2000 2000 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>060MD -60 60 mbar 2000 1000 7000 2000 2000 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>100MD -100 100 mbar 2000 1000 7000 2000 2000 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>160MD -160 160 mbar 2000 1000 7000 2000 2000 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>250MD -250 250 mbar 16000 — 25000 — 10000 ±1.5 ±3.0 ±4.5 ±1.0 ±0.6 A<br>400MD -400 400 mbar 16000 — 25000 — 10000 ±1.5 ±3.0 ±4.5 ±1.0 ±0.6 A<br>600MD -600 600 mbar 16000 — 25000 — 10000 ±1.5 ±3.0 ±4.5 ±1.0 ±0.6 A<br>001BD -1 1 bar 16 — 25 — 16 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>1.6BD -1.6 1.6 bar 16 — 25 — 16 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>2.5BD -2.5 2.5 bar 16 — 25 — 16 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>004BD -4 4 bar 16 — 25 — 16 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>Gage<br>010MG 0 10 mbar 700 — 7000 — — ±2.0 ±3.5 — ±1.0 ±0.3 B<br>016MG 0 16 mbar 700 — 7000 — — ±2.0 ±3.5 — ±1.0 ±0.3 B<br>025MG 0 25 mbar 700 — 7000 — — ±2.0 ±3.5 — ±1.0 ±0.3 A<br>040MG 0 40 mbar 700 — 7000 — — ±2.0 ±3.5 — ±1.0 ±0.3 A<br>060MG 0 60 mbar 2000 — 7000 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>100MG 0 100 mbar 2000 — 7000 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>160MG 0 160 mbar 2000 — 7000 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>250MG 0 250 mbar 2000 — 7000 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>400MG 0 400 mbar 2000 — 7000 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>600MG 0 600 mbar 16000 — 25000 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.6 A<br>001BG 0 1 bar 16 — 25 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.5 A<br>1.6BG 0 1.6 bar 16 — 25 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>2.5BG 0 2.5 bar 16 — 25 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>004BG 0 4 bar 16 — 25 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>006BG 0 6 bar 16 — 25 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>008BG 0 8 bar 16 — 25 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>010BG 0 10 bar 16 — 25 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>012BG 0 12 bar 16 — 25 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>**----- End of picture text -----**<br>
> 1 **Overpressure:** The maximum pressure which may safely be applied to the product for it to remain in specification once pressure is returned to the operating pressure range. Exposure to higher pressures may cause permanent damage to the product. Unless otherwise specified, this applies to all available pressure ports at any temperature within the operating temperature range.
> 2 **Burst Pressure:** The maximum pressure that may be applied to any port of the product without causing escape of pressure media. The product should not be expected to function after exposure to any pressure beyond the burst pressure.
> 3 **Common Mode Pressure:** The maximum pressure that can be applied simultaneously to both ports of a differential pressure sensor without causing changes in specified performance.
> 4 **Total Error Band:** The maximum deviation from the ideal transfer function over the entire compensated temperature and pressure range without causing changes in specified performance.
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **13**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
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TABLE 14. PRESSURE RANGE SPECIFICATIONS: 250 MBAR TO 12 BAR FOR PRODUCT OPTIONS "G" AND "F" ONLY<br>PRESSURE BURST TOTAL ERROR BAND [4] TYPICAL<br>OVERPRESSURE [1] TRANSFER<br>RANGE PRESSURE [2] (%FSS) OFFSET LONG-TERM<br>COMMON FUNCTION<br>PRESSURE SHIFT STABILITY<br>UNIT MODE 0°C -20°C -40°C FOR<br>RANGE PORT 1 PORT 2 PORT 1 PORT 2 WITH (1000 HR)<br>P P PRESSURE [3] TO TO TO DIGITAL<br>MIN . MAX . (P1) (P2) (P1) (P2) 50°C 85°C 110°C REFLOW (%FSS) VERSIONS<br>(%FSS)<br>Absolute<br>001BA 0 1 bar 16 — 25 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>1.6BA 0 1.6 bar 16 — 25 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>2.5BA 0 2.5 bar 16 — 25 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>004BA 0 4 bar 16 — 25 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>006BA 0 6 bar 16 — 25 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>008BA 0 8 bar 16 — 25 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>010BA 0 10 bar 16 — 25 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>012BA 0 12 bar 16 — 25 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>Differential<br>250MD -250 250 mbar 16000 — 25000 — 16000 ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>400MD -400 400 mbar 16000 — 25000 — 16000 ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>600MD -600 600 mbar 16000 — 25000 — 16000 ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>001BD -1 1 bar 16 — 25 — 16 ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>1.6BD -1.6 1.6 bar 16 — 25 — 16 ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>2.5BD -2.5 2.5 bar 16 — 25 — 16 ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>004BD -4 4 bar 16 — 25 — 16 ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>Gage<br>600MG 0 600 mbar 16000 — 25000 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>001BG 0 1 bar 16 — 25 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>1.5BG 0 1.6 bar 16 — 25 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>2.5BG 0 2.5 bar 16 — 25 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>004BG 0 4 bar 16 — 25 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>006BG 0 6 bar 16 — 25 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>008BG 0 8 bar 16 — 25 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>010BG 0 10 bar 16 — 25 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>012BG 0 12 bar 16 — 25 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>**----- End of picture text -----**<br>
> 1 **Overpressure:** The maximum pressure which may safely be applied to the product for it to remain in specification once pressure is returned to the operating pressure range. Exposure to higher pressures may cause permanent damage to the product. Unless otherwise specified, this applies to all available pressure ports at any temperature within the operating temperature range.
> 2 **Burst Pressure:** The maximum pressure that may be applied to any port of the product without causing escape of pressure media. The product should not be expected to function after exposure to any pressure beyond the burst pressure.
> 3 **Common Mode Pressure:** The maximum pressure that can be applied simultaneously to both ports of a differential pressure sensor without causing changes in specified performance.
> 4 **Total Error Band:** The maximum deviation from the ideal transfer function over the entire compensated temperature and pressure range without causing changes in specified performance.
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **14**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
TABLE 15. PRESSURE RANGE SPECIFICATIONS: 600 PA TO 1.2 MPA FOR PRODUCT OPTIONS "N", "D", "T" AND "V" ONLY
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**----- Start of picture text -----**<br>
PRESSURE BURST TOTAL ERROR BAND [4] TYPICAL<br>OVERPRESSURE [1] TRANSFER<br>RANGE PRESSURE [2] (%FSS) OFFSET LONG-TERM<br>COMMON FUNCTION<br>PRESSURE SHIFT STABILITY<br>UNIT MODE 0°C -20°C -40°C FOR<br>RANGE PORT 1 PORT 2 PORT 1 PORT 2 WITH (1000 HR)<br>P P PRESSURE [3] TO TO TO DIGITAL<br>MIN . MAX . (P1) (P2) (P1) (P2) 50°C 85°C 110°C REFLOW (%FSS) VERSIONS<br>(%FSS)<br>Absolute<br>100KA 0 100 kPa 1600 — 2500 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>160KA 0 160 kPa 1600 — 2500 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>250KA 0 250 kPa 1600 — 2500 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>Differential<br>600LD -600 600 Pa 70000 70000 70000 100000 — ±2.0 ±3.5 — ±1.0 ±0.3 B<br>001KD -1 1 kPa 70 70 700 100 — ±2.0 ±3.5 — ±1.0 ±0.3 B<br>1.6KD -1.6 1.6 kPa 70 70 700 100 — ±2.0 ±3.5 — ±1.0 ±0.3 A<br>2.5KD -2.5 2.5 kPa 70 70 700 100 — ±2.0 ±3.5 — ±1.0 ±0.3 A<br>004KD -4 4 kPa 200 100 700 200 200 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>006KD -6 6 kPa 200 100 700 200 200 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>010KD -10 10 kPa 200 100 700 200 200 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>016KD -16 16 kPa 200 100 700 200 200 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>025KD -25 25 kPa 1600 — 2500 — 16000 ±1.5 ±3.0 ±4.5 ±1.0 ±0.6 A<br>040KD -40 40 kPa 1600 — 2500 — 16000 ±1.5 ±3.0 ±4.5 ±1.0 ±0.6 A<br>060KD -60 60 kPa 1600 — 2500 — 16000 ±1.5 ±3.0 ±4.5 ±1.0 ±0.6 A<br>100KD -100 100 kPa 1600 — 2500 — 16000 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>160KD -160 160 kPa 1600 — 2500 — 16000 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>250KD -250 250 kPa 1600 — 2500 — 16000 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>400KD -400 400 kPa 1600 — 2500 — 16000 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>Gage<br>001KG 0 1 kPa 70 — 700 — — ±2.0 ±3.5 — ±1.0 ±0.3 B<br>1.6KG 0 1.6 kPa 70 — 700 — — ±2.0 ±3.5 — ±1.0 ±0.3 B<br>2.5KG 0 2.5 kPa 70 — 700 — — ±2.0 ±3.5 — ±1.0 ±0.3 A<br>004KG 0 4 kPa 70 — 700 — — ±2.0 ±3.5 — ±1.0 ±0.3 A<br>006KG 0 6 kPa 200 — 700 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>010KG 0 10 kPa 200 — 700 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>016KG 0 16 kPa 200 — 700 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>025KG 0 25 kPa 200 — 700 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>040KG 0 40 kPa 200 — 700 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>060KG 0 60 kPa 1600 — 2500 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.6 A<br>100KG 0 100 kPa 1600 — 2500 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.5 A<br>160KG 0 160 kPa 1600 — 2500 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>250KG 0 250 kPa 1600 — 2500 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>400KG 0 400 kPa 1600 — 2500 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>600KG 0 600 kPa 1600 — 2500 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>800KG 0 800 kPa 1600 — 2500 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>001GG 0 1 MPa 1.6 — 2.5 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>1.2GG 0 1.2 MPa 1.6 — 2.5 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>**----- End of picture text -----**<br>
> 1 **Overpressure:** The maximum pressure which may safely be applied to the product for it to remain in specification once pressure is returned to the operating pressure range. Exposure to higher pressures may cause permanent damage to the product. Unless otherwise specified, this applies to all available pressure ports at any temperature within the operating temperature range.
> 2 **Burst Pressure:** The maximum pressure that may be applied to any port of the product without causing escape of pressure media. The product should not be expected to function after exposure to any pressure beyond the burst pressure.
> 3 **Common Mode Pressure:** The maximum pressure that can be applied simultaneously to both ports of a differential pressure sensor without causing changes in specified performance.
> 4 **Total Error Band:** The maximum deviation from the ideal transfer function over the entire compensated temperature and pressure range without causing changes in specified performance.
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **15**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
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TABLE 16. PRESSURE RANGE SPECIFICATIONS: 25 KPA TO 1.2 MPA FOR PRODUCT OPTIONS "G" AND "F" ONLY<br>PRESSURE BURST TOTAL ERROR BAND [4] TYPICAL<br>OVERPRESSURE [1] TRANSFER<br>RANGE PRESSURE [2] (%FSS) OFFSET LONG-TERM<br>COMMON FUNCTION<br>PRESSURE SHIFT STABILITY<br>UNIT MODE 0°C -20°C -40°C FOR<br>RANGE PORT 1 PORT 2 PORT 1 PORT 2 WITH (1000 HR)<br>P P PRESSURE [3] TO TO TO DIGITAL<br>MIN . MAX . (P1) (P2) (P1) (P2) 50°C 85°C 110°C REFLOW (%FSS) VERSIONS<br>(%FSS)<br>Absolute<br>100KA 0 100 kPa 1600 — 2500 — — ±2.0 ±3.0. ±4.5 ±1.0 ±0.5 A<br>160KA 0 160 kPa 1600 — 2500 — — ±2.0 ±3.0. ±4.5 ±1.0 ±0.5 A<br>250KA 0 250 kPa 1600 — 2500 — — ±2.0 ±3.0. ±4.5 ±1.0 ±0.5 A<br>400KG 0 400 kPa 1600 — 2500 — — ±2.0 ±3.0. ±4.5 ±1.0 ±0.5 A<br>600KG 0 600 kPa 1600 — 2500 — — ±2.0 ±3.0. ±4.5 ±1.0 ±0.5 A<br>800KG 0 800 kPa 1600 — 2500 — — ±2.0 ±3.0. ±4.5 ±1.0 ±0.5 A<br>001GG 0 1 MPa 1.6 — 2.5 — — ±2.0 ±3.0. ±4.5 ±1.0 ±0.5 A<br>1.2GG 0 1.2 MPa 1.6 — 2.5 — — ±2.0 ±3.0. ±4.5 ±1.0 ±0.5 A<br>Differential<br>025KD -25 25 kPa 1600 — 2500 — 1600 ±2.0 ±3.0. ±4.5 ±1.0 ±0.5 A<br>040KD -40 40 kPa 1600 — 2500 — 1600 ±2.0 ±3.0. ±4.5 ±1.0 ±0.5 A<br>060KD -60 60 kPa 1600 — 2500 — 1600 ±2.0 ±3.0. ±4.5 ±1.0 ±0.5 A<br>100KD -100 100 kPa 1600 — 2500 — 1600 ±2.0 ±3.0. ±4.5 ±1.0 ±0.5 A<br>160KD -160 160 kPa 1600 — 2500 — 1600 ±2.0 ±3.0. ±4.5 ±1.0 ±0.5 A<br>250KD -250 250 kPa 1600 — 2500 — 1600 ±2.0 ±3.0. ±4.5 ±1.0 ±0.5 A<br>400KD -400 400 kPa 1600 — 2500 — 1600 ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>Gage<br>060KG 0 60 kPa 1600 — 2500 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>100KG 0 100 kPa 1600 — 2500 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>160KG 0 160 kPa 1600 — 2500 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>250KG 0 250 kPa 1600 — 2500 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>400KG 0 400 kPa 1600 — 2500 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>600KG 0 600 kPa 1600 — 2500 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>800KG 0 800 kPa 1600 — 2500 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>001GG 0 1 MPa 1.6 — 2.5 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>1.2GG 0 1.2 MPa 1.6 — 2.5 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>**----- End of picture text -----**<br>
> 1 **Overpressure:** The maximum pressure which may safely be applied to the product for it to remain in specification once pressure is returned to the operating pressure range. Exposure to higher pressures may cause permanent damage to the product. Unless otherwise specified, this applies to all available pressure ports at any temperature within the operating temperature range.
> 2 **Burst Pressure:** The maximum pressure that may be applied to any port of the product without causing escape of pressure media. The product should not be expected to function after exposure to any pressure beyond the burst pressure.
> 3 **Common Mode Pressure:** The maximum pressure that can be applied simultaneously to both ports of a differential pressure sensor without causing changes in specified performance.
> 4 **Total Error Band:** The maximum deviation from the ideal transfer function over the entire compensated temperature and pressure range without causing changes in specified performance.
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **16**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
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TABLE 17. PRESSURE RANGE SPECIFICATIONS: 2 INH20 TO 175 PSI FOR PRODUCT OPTIONS "N", "D", "T" AND "V" ONLY<br>PRESSURE BURST TOTAL ERROR BAND [4] TYPICAL<br>OVERPRESSURE [1] TRANSFER<br>RANGE PRESSURE [2] COMMON (%FSS) OFFSET LONG-TERM<br>FUNCTION<br>PRESSURE MODE SHIFT STABILITY<br>UNIT 0°C -20°C -40°C FOR<br>RANGE PORT 1 PORT 2 PORT 1 PORT 2 PRESSURE [3] WITH (1000 HR)<br>P P TO TO TO DIGITAL<br>MIN . MAX . (P1) (P2) (P1) (P2) 50°C 85°C 110°C REFLOW (%FSS) VERSIONS<br>(%FSS)<br>Absolute<br>015PA 0 15 psi 240 — 375 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>030PA 0 30 psi 240 — 375 — — ±1.5 3.0 ±4.5 ±1.0 ±0.2 A<br>Differential<br>002ND -2 2 inH2O 270 270 2800 415 — ±2.0 ±3.5 — ±1.0 ±0.3 B<br>004ND -4 4 inH2O 270 270 2800 415 — ±2.0 ±3.5 — ±1.0 ±0.3 B<br>005ND -5 5 inH2O 270 270 2800 415 — ±2.0 ±3.5 — ±1.0 ±0.3 A<br>010ND -10 10 inH2O 270 270 2800 415 — ±2.0 ±3.5 — ±1.0 ±0.3 A<br>020ND -20 20 inH2O 830 415 2800 830 830 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>030ND -30 30 inH2O 830 415 2800 830 830 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>001PD -1 1 psi 30 15 100 830 30 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>005PD -5 5 psi 240 — 375 — 240 ±1.5 ±3.0 ±4.5 ±1.0 ±0.6 A<br>015PD -15 15 psi 240 — 375 — 240 ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>030PD -30 30 psi 240 — 375 — 240 ±2.0 ±3.0 ±4.5 ±1.0 ±0.2 A<br>060PD -60 60 psi 240 — 375 — 240 ±2.0 ±3.0 ±4.5 ±1.0 ±0.2 A<br>Gage<br>004NG 0 4 inH2O 270 — 2800 — — ±2.0 ±3.5 — ±1.0 ±0.3 B<br>005NG 0 5 inH2O 270 — 2800 — — ±2.0 ±3.5 — ±1.0 ±0.3 B<br>010NG 0 10 inH2O 270 — 2800 — — ±2.0 ±3.5 — ±1.0 ±0.3 A<br>020NG 0 20 inH2O 270 — 2800 — — ±2.0 ±3.5 — ±1.0 ±0.3 A<br>030NG 0 30 inH2O 830 — 2800 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>001PG 0 1 psi 30 — 100 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>005PG 0 5 psi 30 — 100 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>015PG 0 15 psi 240 — 375 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.5 A<br>030PG 0 30 psi 240 — 375 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>060PG 0 60 psi 240 — 375 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>100PG 0 100 psi 240 — 375 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>150PG 0 150 psi 240 — 375 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>175PG 0 175 psi 240 — 375 — — ±1.5 ±3.0 ±4.5 ±1.0 ±0.2 A<br>**----- End of picture text -----**<br>
> 1 **Overpressure:** The maximum pressure which may safely be applied to the product for it to remain in specification once pressure is returned to the operating pressure range. Exposure to higher pressures may cause permanent damage to the product. Unless otherwise specified, this applies to all available pressure ports at any temperature within the operating temperature range.
> 2 **Burst Pressure:** The maximum pressure that may be applied to any port of the product without causing escape of pressure media. The product should not be expected to function after exposure to any pressure beyond the burst pressure.
> 3 **Common Mode Pressure:** The maximum pressure that can be applied simultaneously to both ports of a differential pressure sensor without causing changes in specified performance.
> 4 **Total Error Band:** The maximum deviation from the ideal transfer function over the entire compensated temperature and pressure range without causing changes in specified performance.
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **17**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
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TABLE 18. PRESSURE RANGE SPECIFICATIONS: 5 PSI TO 175 PSI FOR PRODUCT OPTIONS "G" AND "F" ONLY<br>PRESSURE BURST TOTAL ERROR BAND [4] TYPICAL<br>OVERPRESSURE [1] TRANSFER<br>RANGE PRESSURE [2] (%FSS) OFFSET LONG-TERM<br>COMMON [3] FUNCTION<br>PRESSURE SHIFT STABILITY<br>UNIT MODE 0°C -20°C -40°C FOR<br>RANGE PORT 1 PORT 2 PORT 1 PORT 2 WITH (1000 HR)<br>PMIN . PMAX . (P1) (P2) (P1) (P2) PRESSURE 50°C TO 85°CTO 110°CTO REFLOW (%FSS) VERSIONSDIGITAL<br>(%FSS)<br>Absolute<br>015PA 0 15 psi 240 — 375 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>030PA 0 30 psi 240 — 375 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>060PA 0 60 psi 240 — 375 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>100PA 0 100 psi 240 — 375 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>150PA 0 150 psi 240 — 375 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>175PA 0 175 psi 240 — 375 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>Differential<br>005PD -5 5 psi 240 — 375 — 240 ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>015PD -15 15 psi 240 — 375 — 240 ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>030PD -30 30 psi 240 — 375 — 240 ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>060PD -60 60 psi 240 — 375 — 240 ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>Gage<br>015PG 0 15 psi 240 — 375 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>030PG 0 30 psi 240 — 375 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>060PG 0 60 psi 240 — 375 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>100PG 0 100 psi 240 — 375 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>150PG 0 150 psi 240 — 375 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>175PG 0 175 psi 240 — 375 — — ±2.0 ±3.0 ±4.5 ±1.0 ±0.5 A<br>**----- End of picture text -----**<br>
> 1 **Overpressure:** The maximum pressure which may safely be applied to the product for it to remain in specification once pressure is returned to the operating pressure range. Exposure to higher pressures may cause permanent damage to the product. Unless otherwise specified, this applies to all available pressure ports at any temperature within the operating temperature range.
> 2 **Burst Pressure:** The maximum pressure that may be applied to any port of the product without causing escape of pressure media. The product should not be expected to function after exposure to any pressure beyond the burst pressure.
> 3 **Common Mode Pressure:** The maximum pressure that can be applied simultaneously to both ports of a differential pressure sensor without causing changes in specified performance.
> 4 **Total Error Band:** The maximum deviation from the ideal transfer function over the entire compensated temperature and pressure range without causing changes in specified performance.
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **18**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## DIMENSIONAL DRAWINGS
## FIGURE 9. DIP PACKAGE DIMENSIONAL DRAWINGS (FOR REFERENCE ONLY: MM [IN].)
DIP NN: Plastic no port
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7,3 3,59 (options: T, G) 8,2<br>[0.29] [0.141] [0.32]<br> 3,31 (option: N) 6X 1,56 2,54 TYP<br>4 5 6 [0.130] [0.061] 6 5 [0.100]4<br>5,5 5,50<br>[0.22] [0.217]<br>6,3 11,5 11,0<br>[0.25] [0.45] [0.43]<br>om<br>PIN 1<br>INDICATOR<br>EIEN! [0.16]34,1 2 1 [0.04]1,0 o_o [0.34]8,6 [0.010]0,25 (ep [0.118]3,001 2 3<br>6X 3,81<br> [0.150]<br>ø0,30<br> [0.012]<br>GAGE HOLE<br>6X 0,46<br> [0.018]<br>**----- End of picture text -----**<br>
DIP AN: Plastic single axial barbed port
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7,3 3,59 (options: T, G)<br>[0.29] [0.141]<br> 3,31 (option: N)<br>4 5 6 [0.130] 6 5 4<br>5,5<br>[0.22]<br>6,3 11,0<br>[0.25] [0.43]<br>1 © | — is<br>ø2,32<br>[Oo] [9] [O] |S [0.091] tO flee!<br>(® 3 2 ) 1 ict 1,0 | 0,25 as 1 2 3<br>E [0.16]4,1 [0.04] [0.34]8,6 [0.010] 2 [0.118]3,00<br>6X 3,81<br> [0.150]<br>ah<br>6X 0,46<br> [0.018]<br>8,2<br>[0.32]<br>6X 1,56 2,54 TYP<br> [0.061] [0.100]<br>3,56<br>[0.140]<br> [0.075] [0.217]5,50<br>11,5<br> [0.108] [0.45]<br>ø0,30<br> [0.012]<br>GAGE HOLE<br>PIN 1<br>INDICATOR<br>ø1,90<br>ø2,74<br>7,00<br>[0.276]<br>**----- End of picture text -----**<br>
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **19**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## FIGURE 9. DIP PACKAGE DIMENSIONAL DRAWINGS (CONTINUED)
DIP VN: Metal single axial barbless port
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6,4 4,80 3,19 (options: T, G) 8,2<br>[0.25] [0.189] [0.126] [0.32]<br> 2,91 (option: N) 6X 1,56 2,54 TYP<br>4 5 6 [0.115] [0.061] 6 5 [0.100]4<br>5,5 10º<br>7 [0.22] (GAN a (el tom<br>[0.21]5,4 [0.189]ø4,80 [0.45]11,5 [0.43]11,0<br>ø0,30<br> [0.012]<br>PIN 1 GAGE HOLE<br>INDICATOR<br>a © nai alf<br>3 2 1 1,0 0,25 1 2 3<br>4,1 [0.04] 8,6 [0.010]<br>[0.16] [0.34]<br>6X 3,81<br> [0.150]<br>5,50<br>[0.217]<br> [0.106]<br>3,00<br>[0.118]<br>6X 0,46<br> [0.018]<br>ø2,68<br>**----- End of picture text -----**<br>
DIP SN: Metal single axial straight barbless port
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6,4 5,0 3,19 (options: T, G) 8,2<br>[0.25] [0.20] [0.126] [0.32]<br> 2,91 (option: N) 2X 1,56 2,54 TYP<br>4 5 6 [0.115] [0.061] 6 5 [0.100]4<br>5,5 5,50<br>[0.22] [0.217]<br>5,4 11,5 11,0<br>[0.21] [0.45] [0.43]<br>Zz, tefl =<br>PIN 1<br>INDICATOR<br>3 2 1 0,25 TYP 1 2 3<br>laud [0.16]4,1 [0.04]1,0 — 8,6 [0.010] (con. [0.118]3,00<br>[0.34]<br>6X 3,81<br> [0.150]<br>Hy<br>6X 0,46<br> [0.018]<br> [0.107]<br>ø0,30<br> [0.012]<br>GAGE HOLE<br>ø2,72<br>**----- End of picture text -----**<br>
A ~~BP2~~ Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **20**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## FIGURE 9. DIP PACKAGE DIMENSIONAL DRAWINGS (CONTINUED)
DIP RN: Plastic single radial barbed port
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4,1 0,30 3,74 (options: T, G) 8,2 4,65 2,01 (options: T, G)<br>[0.16] [0.012] [0.147] [0.32] [0.183] [0.079]<br> 3,46 (option: N) 2X 1,56 2,54 TYP 1,73 (option: N)<br> [0.136] [0.061] [0.100] [0.068]<br>4 5 6 6 5 4<br>4,55<br>5,50 [0.179]<br>a {ollellel te [0.217] Th——Jaf<br>eo 11,5 iv J 4<br>6,3 [0.45] 11,0<br>[0.25] [0.43]<br>3,00<br>[0.118]<br>3 2 1 1,0 0,25 TYP 1 2 3<br>7,3 [0.04] [0.010] 1,55<br>[0.29] 8,6 [0.061<br>[0.34]<br>SS semen<br>WT<br>ø1,60 ø1,75<br>ø2,10<br> [0.063] [0.069]<br> [0.083]<br>ø0,30<br>PIN 1INDICATOR GAGE HOLE [0.012]<br>6X 3,81<br> [0.150]<br>**----- End of picture text -----**<br>
## DIP RR: Plastic dual radial barbed ports, same side
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3,10 2X 4,1 3,74 (options: T, G) 2,78 8,2 2X 4,65 4,72 (options: T, G)<br>[0.122] [0.16] [0.147] [0.109] [0.32] [0.183] [0.186]<br> 3,46 (option: N) 2X 1,56 2,54 TYP 4,44 (option: N)<br> [0.136] [0.061] [0.100] [0.175]<br>4 5 6 6 5 4<br>0,30<br>[0.012]<br>L<br>1,90 4 PORT 1 ko 6,3 d WELD 11,0 |<br>[0.075] [0.25] [0.43]<br>PORT 2 4,55<br>PORT 1 PORT 2 [0.179]<br>PIN 1<br>INDICATOR<br>3 2 1 1 2 3<br>7,3 1,0 1,55 2X 2,10<br>[0.29] [0.04] 8,6 [0.061] [0.083]<br>[0.34]<br>THT<br>2X ø1,60 4,55<br> [0.063] [0.179]<br>11,5<br>[0.45]<br>2X ø1,75<br> [0.069]<br> 0,25 TYP<br>[0.010]<br>6X 3,81<br> [0.150]<br>6X 0,46<br> [0.018]<br>**----- End of picture text -----**<br>
DIP DA: Plastic dual axial barbed ports, same side
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14,7<br>PORT 1 [0.58]<br>PRESSURE PORT 5,0 5,9<br>6 5 4 2,50 [0.20] [0.23] 4 5 6<br>PORT 2 [0.098]<br>REFERENCE PORT<br>2X ø2,20<br> [0.087]<br>11,5 11,0<br>2X ø3,00 [0.45] [0.43]<br> [0.118]<br>2X ø1,14 2X ø2,20<br> [0.045] [0.087]<br>SITS 1 2 3 [0.04]1,0 i 8,6 _ 0,25 TYP[0.010] TSE 2,54 TYP3 2 1 2,01<br>[0.34] [0.100] [0.079]<br>6X 3,81<br> [0.150]<br>si<br>6X 0,46<br> [0.018]<br>9,1<br>[0.36]<br>8,5<br>[0.33]<br>2,60 6,6<br>[0.102] [0.26]<br>PIN 1<br>INDICATOR<br>5,30<br>[0.209]<br>**----- End of picture text -----**<br>
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **21**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## FIGURE 10. SMT PACKAGE DIMENSIONAL DRAWINGS (FOR REFERENCE ONLY: MM [IN].)
SMT NN: Plastic no port
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7,3 3,59 (options: T, G)<br>[0.29] [0.141]<br> 3,31 (option: N)<br> [0.130]<br>4 5 6 6 5 4<br>5,5<br>[0.22] ø0,30<br> [0.012]<br>GAGE HOLE<br>ees og i n e<br>{ | ry =<br>3 2 1 1 2 3<br>OTTeNoh} i inlealna<br>4 5 6 6 5 4<br>ø1,90<br> [0.075]<br>ø0,30<br> [ 0.0 12]<br>GAGE HOLE<br>ø2,74<br> [0.108]<br>(GC) ane a<br>ø2,32<br> [0.091]<br>7) ane a [_]<br>3 2 1 1 2 3<br>8,2<br>[0.32]<br>3,0<br>[0.12]<br>5,5<br>[0.22]<br>6,3 11,5 11,0<br>[0.25] [0.45] [0.43]<br>6X 1,28<br> [0.050]<br>PIN 1<br>INDICATOR<br>[0.16]4,1 [0.04]1,0 0,25 TYP[0.010] [0.018]6X 0,46<br>4,2 2,54 TYP 2X 1,56<br>[0.16] [0.100] [0.061]<br>6,8<br>[0.27]<br>7,3 3,59 (options: T, G) 8,2<br>[0.29] [0.141] [0.32]<br> 3,31 (option: N) 3,0<br> [0.130] [0.12]<br>3,56<br>[0.140]<br>5,5 5,5<br>[0.22] [0.22]<br>6,3 11,5 11,0<br>[0.25] [0.45] [0.43]<br>6X 1,28<br> [0.050]<br>PIN 1<br>INDICATOR<br>[0.04]1,0 0,25 TYP[0.010] [0.018]6X 0,46<br>4,1 4,2 2,54 TYP 2X 1,56<br>[0.16] [0.16] [0.100] [0.061]<br>13,8<br>[0.54]<br>7,00<br>[0.276]<br>**----- End of picture text -----**<br>
SMT AN: Plastic single axial barbed port
SMT VN: Metal single axial barbless port
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6,4 4,1 3,19 (options: T, G)<br>[0.25] [0.16] [0.126]<br> 2,91 (option: N)<br>4 5 6 0,7 [0.115] 6 5 4<br>[0.03]<br>-_ he<br>[0.22]5,5 10º [0.22]5,5 [0.012]ø0,30<br>GAGE HOLE<br>5,4 11,5 11,0<br>[0.21] [0.45] [0.43]<br>oar Re<br>6X 1,28<br> [0.050]<br>PIN 1<br>INDICATOR<br>3 2 1 [0.04]1,0 0,25 TYP[0.010] [0.018]6X 0,46 1 2 3<br>4,1 4,2 2,54 TYP 2X 1,56<br>[0.16] [0.16] [0.100] [0.061]<br>11,2<br>oe - [0.44] ns a<br>8,2<br>[0.32]<br>3,0<br>[0.12]<br> [0.189] [0.106]<br>ø4,80 ø2,68<br>**----- End of picture text -----**<br>
SMT SN: Metal single axial straight barbless port
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**----- Start of picture text -----**<br>
5,00 3,19 (options: T, G)<br>[0.197] [0.126]<br> 2,91 (option: N)<br> [0.115]<br>4 5 6 6 5 4<br>TL,<br>ø0,30<br> [0.012]<br>GAGE HOLE<br>ø2,72 11,5 11,0<br> [0.107] [0.45] [0.43]<br>(©) a als 6X 1,28<br> [0.050]<br>pf}yoo) 3 ft} 2 1 [0.04]1,0 iLU 0,25 TYP[0.010] [0.018]6X 0,46 maiInalmalral 1 2 3 7<br>i [0.16]4,2 2,54 TYP[0.100] [0.061]2X 1,56<br>11,4<br>[0.45]<br>8,2<br>[0.32]<br>6,4 3,0<br>[0.25] [0.12]<br>5,5 5,5<br>[0.22] [0.22]<br>5,4<br>[0.21]<br>PIN 1<br>INDICATOR<br>4,1<br>[0.16]<br>**----- End of picture text -----**<br>
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **22**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## FIGURE 10. SMT PACKAGE DIMENSIONAL DRAWINGS (CONTINUED
SMT RN: Plastic single radial barbed port
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**----- Start of picture text -----**<br>
3,74 (options: T, G) 2,01 (options: T, G)<br> [0.147] [0.079]<br> 3,46 (option: N) 1,73 (option: N)<br> [0.136] [0.068]<br>4 5 6 6 5 4<br>ø1,75<br>ø1,60 [0.069]<br> [0.063]<br>ee agGon mS TIue +e —- Fi<br>ø2,10<br> [0.083]<br>comes)!a. PIN 1INDICATOR &i petfae] oo [0.012]GAGE HOLEø0,30<br>3 2 1 1 2 3<br>[0.16]4,2 [0.018]6X 0,46 Pei [0.0611,55<br>4,1 0,30 8,2 4,65<br>[0.16] [0.012] [0.32] [0.183]<br>2X 1,56 2,54 TYP<br> [0.061] [0.100]<br>[0.217]5,50 [0.179]4,55<br>6,3 11,5 11,0<br>[0.25] [0.45] [0.43]<br>3,00<br>[0.118]<br>1,0 0,25 TYP 6X 1,28<br>[0.04] [0.010] [0.050]<br>7,3<br>[0.29]<br>**----- End of picture text -----**<br>
SMT RR: Plastic dual radial barbed ports, same side
**==> picture [538 x 199] intentionally omitted <==**
**----- Start of picture text -----**<br>
3,74 (options T, G) 8,2 4,72 (options: T, G)<br> [0.147] [0.32] [0.186]<br>3,10 2X 4,1 3,46 (option: N) 4,44 (option: N)<br>[0.122] [0.16] [0.136] [0.175]<br>4 5 6 6 5 4<br>PORT 1<br>Cer. ee k - es atta<br>PORT 2<br>ee oS ) PORT 1 ai PORT 2 feels pie<br>Q L e ac ea PEt<br>3 2 1 1,0 6X 1,28 1 2 3<br>[0.04] [0.050]<br>oyero [0.29]7,3 y; iy. [0.16]4,2 0,25 TYP[0.010] selfndEnIiay)IL [0.018]6X 0,46 | [0.0611,55 He<br>SMT DA: Plastic dual axial barbed ports, same side<br>0,30 2X 4,65<br>[0.012] [0.183]<br>2X 1,56 2,54 TYP<br>2,78 [0.061] [0.100]<br>[0.109]<br>2X ø0,60 4,55<br> [0.063] [0.179]<br>1,90 6,3 11,5 11,0<br>[0.075] [0.25] [0.45] [0.43]<br>4,55<br>2X ø1,75 PIN 1 [0.179]<br> [0.069] INDICATOR<br>2X 2,10<br> [0.083]<br>**----- End of picture text -----**<br>
**==> picture [406 x 129] intentionally omitted <==**
**----- Start of picture text -----**<br>
PORT 1 1,5<br>6 5 4 PRESSURE PORT [0.06] 4 5 6<br>PORT 2<br>REFERENCE PORT<br>2X ø2,20<br> [0.087]<br>(aie, 1h |oe<br>(5) cy Ay 7<br>2X ø3,00<br> [0.118]<br>PIN 1<br>INDICATOR 2X ø1,14<br> [0.045]<br>1 2 3 1,0 2,5 TYP 3 2 1<br>[0.04] [0.10] 6X 0,46<br>4,2 [0.018]<br>[0.16]<br>10,3<br>[0.41]<br>8,5 5,0<br>[0.33] [0.20]<br>5,0<br>[0.20]<br>2,6 6,6 11,5 11,0<br>[0.10] [0.26] [0.45] [0.43]<br>6X 1,28<br> [0.050]<br>2X ø2,20<br> [0.087]<br>5,3 2,01<br>[0.21] [0.079]<br>9,1<br>[0.36]<br>**----- End of picture text -----**<br>
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **23**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## FIGURE 11. LEADLESS SMT PACKAGE DIMENSIONAL DRAWINGS (FOR REFERENCE ONLY: MM [IN].)
LEADLESS SMT NN: Plastic no port
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**----- Start of picture text -----**<br>
3,59 (options: T, G) 8,2<br>[0.16]4,1 [0.141] 3,31 (option: N) [0.130] 2,50 TYP[0.098] —— 3 [0.32]2 1<br>PIN 1<br>INDICATOR<br>6,3 3,00 7,2<br>[0.25] [0.118] [0.28]<br>[0.14]3,6 [0.067]6X 1,70 [0.142]3,60<br>7,3 1,0 4 5 6<br>[0.29] [0.04]<br>6X 1,25 3,00<br> [0.049] [0.118]<br> 3,59 (options: T, G)<br> [0.141]<br> [0.130] 3,31 (option: N) [0.049]6X 1,25<br>3 2 1<br>ø1,9<br> [0.07] 1,7<br>e se : [0.07]<br>ø2,7 3,00<br> [0.11] [0.118]<br>3,6<br>- (LTHle|) ø2,32 [0.07]5X 1,7 | emer [0.14]<br> [0.091]<br>4 5 6<br>7,3 2,50 TYP 1,6<br>[0.29] [0.098] [0.06]<br>3,0<br>[0.12]<br> [0.012]<br>GAGE HOLE<br> [0.012]<br>GAGE HOLE<br>ø0,30<br>8,2<br>[0.32] ø0,30<br>PIN 1 [0.16]4,1<br>INDICATOR<br>3,6<br>[0.14]<br>7,2 6,3<br>[0.28] [0.25]<br>1,0<br>[0.04]<br>10,6<br>[0.42]<br>7,0<br>[0.28]<br>3,56<br>[0.140]<br>**----- End of picture text -----**<br>
LEADLESS SMT AN: Plastic single axial barbed port
LEADLESS SMT VN: Metal single axial barbless port
**==> picture [362 x 292] intentionally omitted <==**
**----- Start of picture text -----**<br>
8,2 3,19 (options: T, G)<br>[0.32] [0.126]<br>INDICATORPIN 1 [0.16]4,1 [0.04]1,0 2,91 (option: N) [0.115] 3 2 1 [0.049]6X 1,25<br>1,7<br>3,6 [0.07]<br>[0.14]<br>a Por<br>7,2 5,4 3,00<br>[0.28] [0.21] [0.118]<br>3,6<br>Co) mF mie [0.07]5X 1,7 mm ep [0.14]<br>4 5 6<br>[0.25]6,4 [0.16]4.1 [0.03]0,7 2,50 TYP[0.098] [0.06]1,6<br>[0.31]8,0 a nn [0.12]3,0<br>8,2 5,0 3 ,19 (options: T, G)<br>[0.32] [0.20] [0.126]<br> 2,91 (option: N)<br>INDICATORPIN 1 [0.16]4,1 [0.115] [0.049]6X 1,25<br>3 2 1<br>1,7<br>3,6 [0.07]<br>[0.14]<br>; at<br>7,2 5,4 3,00<br>[0.28] [0.21] [0.118]<br>Le©) —H pi 3,6<br>5X 1,7 [0.14]<br> [0.07]<br>4 5 6<br>[0.25]6,4 [0.04]1,0 2,50 TYP[0.098] [0.06]1,6<br>8,2 3,0<br>[0.32] [0.12]<br> [0.106] 10º<br> [0.19]<br> [0.107]<br>ø0,30<br> [0.012]<br>GAGE HOLE<br>ø2,68<br>ø4,8<br>ø2,72<br>ø0,30<br> [0.012]<br>GAGE HOLE<br>**----- End of picture text -----**<br>
LEADLESS SMT SN: Metal single axial straight port
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **24**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## TABLE 19. PINOUT
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**----- Start of picture text -----**<br>
OUTPUT TYPE PIN 1 PIN 2 PIN 3 PIN 4 PIN 5 PIN 6<br>I [2] C GND VDD EOC NC SDA SCL<br>SPI GND VDD MISO SS MOSI SCLK<br>analog GND NC VOUT NC NC VDD<br>**----- End of picture text -----**<br>
## FIGURE 12. RECOMMENDED PCB LAYOUT AND PART MARKING DETAILS
DIP Packages SMT Packages All pressure port styles except DA All pressure port styles except DA
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**----- Start of picture text -----**<br>
2,54 2,54 0,65<br>[0.100] [0.100] [0.026]<br>11,25 11,00 8,85 11,00 12,35<br>[0.443] [0.433] [0.348] [0.433] [0.486]<br>8,20<br>8,20<br>[0.323]<br>[0.323]<br>6X ø0,73<br> [0.029]<br>1 2 3<br>1 2 3<br>6 5 4<br>6 5 4<br>**----- End of picture text -----**<br>
Leadless SMT Packages All pressure port styles
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**----- Start of picture text -----**<br>
7,20<br>[0.283]<br>4,70<br>1,95 [0.185]<br>[0.077]<br>2,50<br>8,20 [0.098]<br>[0.323]<br>1,45<br>[0.057]<br>3,60<br>[0.142]<br>4<br>3<br>5<br>2<br>1 6 3,00<br>[0.118]<br>6X ø1,0<br> [0.04]<br>GAGE REFERENCE HOLE<br>DO NOT PLUG<br>**----- End of picture text -----**<br>
DIP Packages Pressure port style DA only
DMT Packages Pressure port style DA only
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**----- Start of picture text -----**<br>
2,54 2 ,54 0,65<br>[0.100] [0.100] [0.026]<br>11,25 11,00 8,85 11,00 12,35<br>[0.443] [0.433] [0.348] [0.433] [0.486]<br>9,10 9,10<br>[0.358] [0.358]<br>6X ø0,73<br> [0.029]<br>6 5 4<br>4<br>1 2 3<br>1 2 3<br>**----- End of picture text -----**<br>
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## Part Marking Details
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CATALOG LISTING: 'XXXXXXXXX' EXAMPLE: N010BAA3 N - DRY GASES ONLY NO DIAGNOSTICS, 010B - 10bar, A - ABSOLUTE, A - ANALOG, A - 10% to 90% of 2^24 COUNTS (DIGITAL). 3 - 3.3Vdc DATE CODE: 'YYDDD' EXAMPLE: 19215 19 - YY - YEAR, 215 - DDD - JULIAN DAY.
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **25**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## 1 .0 GENERAL INFORMATION
Please see Figures 7, 8, and 9 for product dimensions and pinout details.
## 2 .0 PINOUT AND FUNCTIONALITY
## TABLE 20. PINOUT AND FUNCTIONALITY
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**----- Start of picture text -----**<br>
PAD I [2] C SENSOR SPI SENSOR<br>NUMBER NAME DESCRIPTION NAME DESCRIPTION<br>1 GND Ground reference voltage signal GND Ground reference voltage signal<br>2 VDD Positive supply voltage VDD Positive supply voltage<br>End-of-conversion indicator: This pin is set<br>high when a measurement and calculation<br>3 EOC [1] MISO Master In/Sensor Out: Data output<br>have been completed and the data is ready<br>to be clocked out<br>4 NC No connection SS Sensor Select: Chip select<br>5 SDA Data in/out MOSI Master Out/Sensor In: Data in<br>6 SCL Clock input SCLK Clock input<br>**----- End of picture text -----**<br>
1 For more details on EOC functionality, please refer to the technical note.
## 3 .0 START-UP TIMING
On power-up, the ABP2 Series digital sensor is able to receive the first command after 2.5 ms from when the VDD supply is within operating specifications.
## 4 .0 POWER SUPPLY REQUIREMENT
Verify that system power to the sensor meets the VDD rising slope requirement (minimum VDD rising slope is at least 10 V/ms).
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## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## 5 .0 REFERENCE CIRCUIT DESIGNS
5 .1 DIGITAL OUTPUT VERSIONS
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**----- Start of picture text -----**<br>
VDD<br>0.1 µF<br>2<br>10 10<br>kOhm kOhm VDD<br>GND ABP2 Series Sensor<br>5 SDA NC 4<br>µ C 6 SCL EOC 3 To µC Optional<br>GND<br>1<br>VDD<br>0.1 µF<br>2<br>GND VDD<br>ABP2 Series Sensor<br>3 MISO<br>4 SS<br>µ C<br>5 MOSI<br>6 SCLK<br>GND<br>1<br>VCC<br>0.1 µF 6<br>VDD<br>GND ABP2 Series Sensor<br>NC 2<br>µ C 3 VOUT NC 4<br>0.001 µF<br>NC 5<br>GND<br>GND<br>1<br>**----- End of picture text -----**<br>
FIGURE 13 . I[2] C SPI CIRCUIT DIAGRAM
FIGURE 14 . SPI CIRCUIT DIAGRAM
## 5 .2 ANALOG OUPUT VERSIONS
FIGURE 15 . ANALOG CIRCUIT DIAGRAM
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**----- Start of picture text -----**<br>
5 .3 BYPASS CAPACITOR USE<br>**----- End of picture text -----**<br>
## NOTICE
To ensure output noise suppression, place an external bypass capacitor of 0.1 μ F very close to the sensor power supply pin (see Figures 13 and 14) in the end-user design.
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **27**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## 6 .0 I[2] C COMMUNICATIONS
## 6 .1 I[2] C BUS CONFIGURATION (SEE FIGURE 16 .)
The I[2] C bus is a simple, serial 8-bit oriented computer bus for efficient I[2] C (Inter-IC) control. It provides good support for communication between different ICs across short circuit-board distances, such as interfacing microcontrollers with various low speed peripheral devices. For detailed specifications of the I[2] C protocol, see Version 6 (April 2014) of the I[2] C Bus Specification (source: NXP Semiconductor at https://www.nxp.com/docs/en/user-guide/UM10204.pdf).
Each device connected to the bus is software addressable by a unique address and a simple Master/Sensor relationship that exists at all times. The output stages of devices connected to the bus are designed around an open collector architecture. Because of this, pull-up resistors to +VDD must be provided on the bus. Both SDA and SCL are bidirectional lines, and it is important to system performance to match the capacitive loads on both lines. In addition, in accordance with the I[2] C specification, the maximum allowable capacitance on either line is 400 pF to ensure reliable edge transitions at 400 kHz clock speeds.
When the bus is free, both lines are pulled up to +VDD. Data on the I[2] C bus can be transferred at a rate up to 100 kbit/s in the standard-mode, or up to 400 kbit/s in the fast-mode.
FIGURE 16 . I[2] C BUS CONFIGURATION
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**----- Start of picture text -----**<br>
+VDD<br>Master Pull-up resistors Rp Rp<br>(Serial Clock Line)<br>SCL<br>(Serial Data Line)<br>SDA<br>Sensor 1 Sensor 2 Sensor 3<br>**----- End of picture text -----**<br>
## 6 .2 I[2] C DATA TRANSFER
The ABP2 Series I[2] C sensors are designed to respond to requests from a Master device. Following the address and read bit from the Master, the ABP2 Series digital output pressure sensors are designed to output up to 7 bytes of data. The first data byte is the Status Byte (8 bit), the second to fourth bytes are the compensated pressure output (24 bit) and the fifth to seventh bytes are the compensated temperature output (24 bit).
## 6 .3 I[2] C SENSOR ADDRESS
Each ABP2 Series I[2] C sensor is referenced on the bus by a 7-bit Sensor address. The default address for the ABP2 Series is 40 (28 hex). Other available standard addresses are: 08 (08 hex), 24 (18 hex), 56 (38 hex), 72 (48 hex), 88 (58 hex), 104 (68 hex), 120 (78 hex). (Other custom values are available. Please contact Honeywell Customer Service with questions regarding custom Sensor addresses.)
## 6 .4 I[2] C PRESSURE AND TEMPERATURE READING
To read out the compensated pressure and temperature reading, the Master generates a START condition and sends the Sensor address followed by a read bit (1). After the Sensor generates an acknowledge, it will transmit up to 7 bytes of data. The first data byte is the Status Byte (8-bit) and the second to fourth bytes are the compensated pressure output (24 bit) and the fifth to seventh bytes are the compensated temperature output (24 bit). The Master must acknowledge the receipt of each byte, and can terminate the communication by sending a Not Acknowledge (NACK) bit followed by a Stop bit after receiving the required bytes of data.
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **28**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## 6 .5 I[2] C STATUS BYTE
TABLE 21. I[2] C STATUS BYTE EXPLANATION
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**----- Start of picture text -----**<br>
BIT (MEANING) STATUS COMMENT<br>7 always 0 —<br>6 (Power indication) 1 = device is powered —<br>0 = device is not powered<br>Indicates that the data for the last command is not yet<br>5 (Busy flag) 1 = device is busy available. No new commands are processed if the device is<br>busy.<br>4 always 0 —<br>3 always 0 —<br>Indicates whether the checksum-based integrity check<br>2 (Memory integrity/error flag) 0 = integrity test passed passed or failed; the memory error status bit is calculated<br>1 = integrity test failed<br>only during the power-up sequence.<br>1 always 0 —<br>1 = internal math saturation<br>0 (Math saturation) —<br>has occurred<br>**----- End of picture text -----**<br>
## 6 .6 I[2] C COMMUNICATIONS
## 6 .6 .1 I[2] C OUTPUT MEASUREMENT COMMAND
To communicate with the ABP2 Series I[2] C output sensor using an Output Measurement Command of “0xAA”, followed by “0x00” “0x00”, follow the steps shown in Table 22. This command will cause the device to exit Standby Mode and enter Operating Mode. At the conclusion of the measurement cycle, the device will automatically re-enter Standby Mode.
TABLE 22. I[2] C OUTPUT MEASUREMENT COMMAND
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**----- Start of picture text -----**<br>
STEP ACTION NOTES<br>Master to Sensor<br>CmdData CmdData<br>S SensorAddr 0 A Command A A A P<br><15:8> <7:0><br>1<br>7-bit Sensor to Master<br>Write bit<br>S Start condition<br>Option 1: Wait until the busy flag in Option 2: Wait for at Option 3: Wait for the<br>the Status Byte clears. least 5 ms for the data EOC indicator.<br>P Stop condition<br>conversion to occur.<br>2 S SensorAddr 1 A Status N P A Acknowledge<br>7-bit<br>N Not acknowledge<br>Read bit<br>To read only the 24-bit pressure output along with the 8-bit Status Byte:t<br>PressData PressData PressData<br>S SensorAddr 1 A Status A A A N P<br><23:16> <15:8> <7:0><br>7-bit<br>Read bit<br>3 To read the 24-bit pressure output and 24-bit temperature output along with the 8-bit Status Byte:<br>S SensorAddr 1 A Status A PressData A PressData A PressData A TempData A TempData A TempData N P<br><23:16> <15:8> <7:0> <23:16> <15:8> <7:0><br>7-bit<br>Read bit<br>**----- End of picture text -----**<br>
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **29**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## 6 .6 .2 I[2] C SENSOR ADDRESS OF 0X28
To communicate with the ABP2 Series I[2] C output sensor with an I[2] C Sensor Address of 0x28 (hex), follow the steps shown in Table 23.
TABLE 23. I[2] C SENSOR ADDRESS OF 0X28 COMMUNICATIONS
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**----- Start of picture text -----**<br>
STEP ACTION NOTES<br>0x28 0<br>CmdData CmdData Master to Sensor<br>S SensorAddr 0 A Command A A A P<br><15:8> <7:0><br>1<br>0x50 0xAA 0x00 0x00 Sensor to Master<br>Write bit<br>S Start condition<br>Option 1: Wait until the busy flag in Option 2: Wait for at Option 3: Wait for the<br>the Status Byte clears. least 5 ms for the data EOC indicator. P Stop condition<br>0x28 1 conversion to occur.<br>2 S SensorAddr 1 A Status N P A Acknowledge<br>0x51<br>Read bit N Not acknowledge<br>To read the 24-bit pressure output along with the 8-bit Status Byte:<br>0x28 1<br>S SensorAddr 1 A Status A PressData A PressData A PressData N P<br><23:16> <15:8> <7:0><br>0x51<br>Read bit<br>3 To read the 24-bit pressure output and the 24-bit temperature output along with the 8-bit Status Byte:<br>0x28 1<br>S SensorAddr 1 A Status A PressData A PressData A PressData A TempData A TempData A TempData N P<br><23:16> <15:8> <7:0> <23:16> <15:8> <7:0><br>0x51<br>Read bit<br>**----- End of picture text -----**<br>
## 6 .7 I[2] C TIMING AND LEVEL PARAMETERS
TABLE 24. I[2] C BUS TIMING DIAGRAM AND PARAMETERS
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**----- Start of picture text -----**<br>
SDA<br>tLOW tSUDAT tHDSTA tBUS<br>SCL<br>tHDSTA tHDDAT tHIGH tSUSTA tSUSTO<br>CHARACTERISTIC ABBREVIATION MIN . TYP . MAX . UNIT<br>SCL clock frequency fSCL 100 — 400 kHz<br>Start condition hold time relative to SCL edge tHDSTA 0.1 — — μ s<br>Minimum SCL clock low width [1] tLOW 0.6 — — μ s<br>Minimum SCL clock high width [1] tHIGH 0.6 — — μ s<br>Start condition setup time relative to SCL edge tSUSTA 0.1 — — μ s<br>Data hold time on SDA relative to SCL edge tHDDAT 0 — — μ s<br>Data setup time on SDA relative to SCL edge tSUDAT 0.1 — — μ s<br>Stop condition setup time on SCL tSUSTO 0.1 — — μ s<br>Bus free time between stop condition and start condition tBUS 2 — — μ s<br>Output level low Outlow — 0 0.2 VDD<br>Output level high Outhigh 0.8 1 — VDD<br>Pull-up resistance on SDA and SCL Rp 1 — 50 kOhm<br>**----- End of picture text -----**<br>
1 Combined low and high widths must equal or exceed minimum SCL period.
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **30**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
6 .8 REFERENCE CODE (ARDUINO/GENUINO UNO) FOR I[2] C INTERFACE See also Section 8.0 for details and examples of ABP2 Series Pressure and Temperature output calculations.
```
#include<Arduino.h>
#include<Wire.h>
uint8_t id = 0x28; // i2c address
uint8_t data[7]; // holds output data
uint8_t cmd[3] = {0xAA, 0x00, 0x00}; // command to be sent
double press_counts = 0; // digital pressure reading [counts]
double temp_counts = 0; // digital temperature reading [counts]
double pressure = 0; // pressure reading [bar, psi, kPa, etc.]
double temperature = 0; // temperature reading in deg C
double outputmax = 15099494; // output at maximum pressure [counts]
double outputmin = 1677722; // output at minimum pressure [counts]
double pmax = 1; // maximum value of pressure range [bar, psi, kPa, etc.]
double pmin = 0; // minimum value of pressure range [bar, psi, kPa, etc.]
double percentage = 0; // holds percentage of full scale data
char printBuffer[200], cBuff[20], percBuff[20], pBuff[20], tBuff[20];
void setup() {
Serial.begin(9600);
while (!Serial) {
delay(10);
}
Wire.begin();
sprintf(printBuffer, "\nStatus Register, 24 - bit Sensor data, Digital Pressure Counts,\
Percentage of full scale pressure, Pressure Output, Temperature\n");
Serial.println(printBuffer);
}
void loop() {
Wire.beginTransmission(id);
int stat = Wire.write (cmd, 3); // write command to the sensor
stat |= Wire.endTransmission();
delay(10);
Wire.requestFrom(id, 7); // read back Sensor data 7 bytes
int i = 0;
for (i = 0; i < 7; i++) {
data [i] = Wire.read();
}
press_counts = data[3] + data[2] * 256 + data[1] * 65536; // calculate digital pressure counts
temp_counts = data[6] + data[5] * 256 + data[4] * 65536; // calculate digital temperature counts
temperature = (temp_counts * 200 / 16777215) - 50; // calculate temperature in deg c
percentage = (press_counts / 16777215) * 100; // calculate pressure as percentage of full scale
//calculation of pressure value according to equation 2 of datasheet
pressure = ((press_counts - outputmin) * (pmax - pmin)) / (outputmax - outputmin) + pmin;
dtostrf(press_counts, 4, 1, cBuff);
dtostrf(percentage, 4, 3, percBuff);
dtostrf(pressure, 4, 3, pBuff);
dtostrf(temperature, 4, 3, tBuff);
/*
The below code prints the raw data as well as the processed data
Data format : Status Register, 24-bit Sensor Data, Digital Counts, percentage of full scale
pressure,
pressure output, temperature
*/
sprintf(printBuffer, " % x\t % 2x % 2x % 2x\t % s\t % s\t % s\t % s \n", data[0], data[1], data[2],
data[3],
cBuff, percBuff, pBuff, tBuff);
Serial.print(printBuffer);
delay(10);
}
```
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **31**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## 7 .0 SPI COMMUNICATIONS
## 7 .1 SPI DEFINITION
The Serial Peripheral Interface (SPI) is a simple bus system for synchronous serial communication between one Master and one or more Sensors. It operates either in full-duplex or half-duplex mode, allowing communication to occur in either both directions simultaneously, or in one direction only. The Master device initiates an information transfer on the bus and generates clock and control signals. Sensor devices are controlled by the Master through individual Sensors Select (SS) lines and are active only when selected. The ABP2 Series SPI sensors operate in full-duplex mode only, with data transfer from the Sensors to the Master. This data transmission uses four, unidirectional bus lines. The Master controls SCLK, MOSI and SS; the Sensor controls MISO. (See Figure 17.)
FIGURE 17 . SPI BUS CONFIGURATION
**==> picture [317 x 183] intentionally omitted <==**
**----- Start of picture text -----**<br>
SCLK<br>SCLK<br>Data Transmission Lines MOSI<br>SCLK: Signal Clock MISO MOSI Sensor 1<br>MOSI: Master Out/Sensor In Master MISO<br>MISO: Master In/Sensor Out SS1<br>SS: Sensor Select SS<br>SS2<br>SS3 SCLK<br>MOSI<br>Sensor 2<br>MISO<br>SS<br>SCLK<br>MOSI<br>Sensor 3<br>MISO<br>SS<br>**----- End of picture text -----**<br>
## 7 .2 SPI DATA TRANSFER
Communicate with the ABP2 Series SPI sensors by de-asserting the Sensor Select (SS) line. At this point, the sensor is no longer idle, and will begin sending data once a clock is received. ABP2 Series SPI sensors are configured for SPI operation in mode 0 (clock polarity is 0 and clock phase is 0). (See Figure 18.)
FIGURE 18 . EXAMPLE OF 1 BYTE SPI DATA TRANSFER
**==> picture [299 x 107] intentionally omitted <==**
**----- Start of picture text -----**<br>
SCLK<br>MOSI MSB Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 LSB<br>MISO MSB Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 LSB<br>SS<br>**----- End of picture text -----**<br>
Once the clocking begins, the ABP2 Series SPI sensor is designed to output up to 7 bytes of data. The first data byte is the Status Byte (8-bit), the second to fourth bytes are the compensated pressure output (24-bit) and the fifth to seventh bytes are the compensated temperature output (24-bit).
## 7 .3 SPI PRESSURE AND TEMPERATURE READING
To read out the compensated pressure and temperature reading, the Master generates the necessary clock signal after activating the sensor with the Sensor Select (SS) line. The sensor will transmit up to 7 bytes of data. The first data byte is the Status Byte (8-bit), the second to fourth bytes are the compensated pressure output (24-bit) and the fifth to seventh bytes are the compensated temperature output (24-bit). The Master can terminate the communication by stopping the clock and deactivating the SS line.
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **32**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## 7 .4 SPI STATUS BYTE
The SPI status byte contains the bits shown in Table 25.
## TABLE 25. SPI STATUS BYTE EXPLANATION
**==> picture [541 x 200] intentionally omitted <==**
**----- Start of picture text -----**<br>
BIT (MEANING) STATUS COMMENT<br>7 always 0 —<br>6 (Power indication) 1 = device is powered —<br>0 = device is not powered<br>Indicates that the data for the last command is not yet<br>5 (Busy flag) 1 = device is busy available. No new commands are processed if the device is<br>busy.<br>4 always 0 —<br>3 always 0 —<br>Indicates whether the checksum-based integrity check<br>0 = integrity test passed<br>2 (Memory integrity/error flag) passed or failed; the memory error status bit is calculated<br>1 = integrity test failed only during the power-up sequence.<br>1 always 0 —<br>0 (Math saturation) 1 = internal math saturation —<br>has occurred<br>**----- End of picture text -----**<br>
## 7 .5 SPI COMMUNICATION
To communicate with the ABP2 Series SPI output sensor using an Output Measurement Command of “0xAA”, followed by “0x00” “0x00”, follow the steps shown in Table 26. This command will cause the device to exit Standby Mode and enter Operating Mode. At the conclusion of the measurement cycle, the device will automatically re-enter Standby Mode.
## TABLE 26. SPI OUTPUT MEASUREMENT COMMAND
**==> picture [541 x 336] intentionally omitted <==**
**----- Start of picture text -----**<br>
STEP ACTION NOTES<br>The data on MISO depend on the preceding command. Discard the data on the MISO line.<br>Master to Sensor<br>0xAA 0x00 0x00<br>1 MOSI Measurement Command CmdData<15:8> CmdData<7:0> Sensor to Master<br> • NOP Command is “0xF0”.<br>MISO Status Data Data<br>Option 1: Wait until the busy flag in the Status Byte clears. Option 2: Wait for at least 5 ms for the data conversion to occur.<br>0xF0<br>2 MOSI Command<br> = NOP<br>MISO Status<br>To read only the 24-bit pressure output along with the 8-bit Status Byte:<br>0xF0 0x00 0x00 0x00<br>MOSI Command = NOP 00Hex 00Hex 00Hex<br>PressData PressData PressData<br>MISO Status<br><24:16> <15:8> <7:0><br>3<br>To read the 24-bit pressure output and the 24-bit temperature output along with the 8-bit Status Byte:<br>0xF0 0x00 0x00 0x00 0x00 0x00 0x00<br>MOSI Command = NOP 00Hex 00Hex 00Hex 00Hex 00Hex 00Hex<br>MISO Status PressData PressData PressData TempData TempData TempData<br><24:16> <15:8> <7:0> <24:16> <15:8> <7:0><br>**----- End of picture text -----**<br>
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **33**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## 7 .6 SPI TIMING AND LEVEL PARAMETERS
## TABLE 27. SPI BUS TIMING DIAGRAM AND PARAMETERS
**==> picture [542 x 262] intentionally omitted <==**
**----- Start of picture text -----**<br>
tHDSS tHIGH tLOW<br>SCLK<br>MOSI/MISO HiZ HiZ<br>tCLKD tCLKD tSUSS<br>SS<br>tBUS<br>CHARACTERISTIC ABBREVIATION MIN . TYP . MAX . UNIT<br>SCLK clock frequency fSCLK 50 — 800 kHz<br>SS drop to first clock edge tHDSS 2.5 — — μ s<br>Minimum SCLK clock low width [1] tLOW 0.6 — — μ s<br>Minimum SCLK clock high width [1] tHIGH 0.6 — — μ s<br>Clock edge to data transition tCLKD 0 — — μ s<br>Rise of SS relative to last clock edge tSUSS 0.1 — — μ s<br>Bus free time between rise and fall of SS tBUS 2 — — μ s<br>Output level low Outlow — 0 0.2 VDD<br>Output level high Outhigh 0.8 1 — VDD<br>**----- End of picture text -----**<br>
1Combined low and high widths must equal or exceed minimum SCLK period.
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **34**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
7 .7 REFERENCE CODE (ARDUINO/GENUINO UNO) FOR SPI INTERFACE See also Section 8.0 for details and examples of ABP2 Series Pressure and Temperature output calculations.
```
#include<Arduino.h>
#include<SPI.h>
double press_counts = 0; // digital pressure reading [counts]
double temp_counts = 0; // digital temperature reading [counts]
double pressure = 0; // pressure reading [bar, psi, kPa, etc.]
double temperature = 0; // temperature reading in deg C
double outputmax = 15099494; // output at maximum pressure [counts]
double outputmin = 1677722; // output at minimum pressure [counts]
double pmax = 1; // maximum value of pressure range [bar, psi, kPa, etc.]
double pmin = 0; // minimum value of pressure range [bar, psi, kPa, etc.]
double percentage = 0; // holds percentage of full scale data
char printBuffer[200], cBuff[20], percBuff[20], pBuff[20], tBuff[20];
void setup() {
Serial.begin(9600);
while (!Serial) {
delay(10);
}
sprintf(printBuffer, "\nStatus Register, 24-bit Sensor data, Digital Pressure Counts,\
Percentage of full scale pressure,Pressure Output, Temperature\n");
Serial.println(printBuffer);
SPI.begin();
pinMode(10, OUTPUT); // pin 10 as SS
digitalWrite(10, HIGH); // set SS High
}
void loop() {
delay(1);
while (1) {
uint8_t data[7] = {0xFA, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}; // holds output data
uint8_t cmd[3] = {0xAA, 0x00, 0x00}; // command to be sent
SPI.beginTransaction(SPISettings(200000, MSBFIRST, SPI_MODE0)); //SPI at 200kHz
digitalWrite(10, LOW); // set SS Low
SPI.transfer(cmd, 3); // send Read Command
digitalWrite(10, HIGH); // set SS High
delay(10); // wait for conversion
digitalWrite(10, LOW);
SPI.transfer(data, 7);
digitalWrite(10, HIGH);
SPI.endTransaction();
press_counts = data[3] + data[2] * 256 + data[1] * 65536; // calculate digital pressure counts
temp_counts = data[6] + data[5] * 256 + data[4] * 65536; // calculate digital temperature counts
temperature = (temp_counts * 200 / 16777215) - 50; // calculate temperature in deg c
percentage = (press_counts / 16777215) * 100; // calculate pressure as percentage of full scale
//calculation of pressure value according to equation 2 of datasheet
pressure = ((press_counts - outputmin) * (pmax - pmin)) / (outputmax - outputmin) + pmin;
dtostrf(press_counts, 4, 1, cBuff);
dtostrf(percentage, 4, 3, percBuff);
dtostrf(pressure, 4, 3, pBuff);
dtostrf(temperature, 4, 3, tBuff);
/*
The below code prints the raw data as well as the processed data
Data format : Status Register, 24-bit Sensor Data, Digital Counts, percentage of full scale
pressure, pressure output,
temperature
*/
sprintf(printBuffer, "%x\t%2x %2x %2x\t%s\t%s\t%s\t%s \n", data[0], data[1], data[2], data[3],
cBuff, percBuff, pBuff, tBuff);
Serial.print(printBuffer);
delay(10);
}
}
```
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **35**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## 8 .0 ABP2 SERIES CALCULATIONS
## 8 .1 DIGITAL OUTPUT VERSIONS
## 8 .11 Pressure Output
The ABP2 Series sensor pressure output may be expressed by the transfer function of the device as shown in Equation 1:
## Equation 1: Pressure Sensor Transfer Function
**==> picture [250 x 25] intentionally omitted <==**
Rearranging this equation to solve for Pressure provides Equation 2:
## Equation 2: Pressure Output Function
**==> picture [47 x 8] intentionally omitted <==**
**==> picture [158 x 27] intentionally omitted <==**
Where:
Outputmax. = output at maximum pressure [counts]
Outputmin. = output at minimum pressure [counts]
Pmax. = maximum value of pressure range [bar, psi, kPa, etc.]
Pmin. = minimum value of pressure range [bar, psi, kPa, etc.]
Pressure = pressure reading [bar, psi, kPa, etc.]
Output = digital pressure reading [counts]
Example: Calculate the pressure for a -1 psi to 1 psi gage sensor with a 10 to 90 calibration, and a pressure output of 14260634 (decimal) counts:
Outputmax. = 15099494 counts (90 of 2[24] counts or 0xE66666)
Outputmin. = 1677722 counts (10 of 2[24] counts or 0x19999A)
Pmax. = 1 psi
Pmin. = -1 psi
Pressure = calculated pressure in psi
Output = 14260634 counts
**==> picture [189 x 67] intentionally omitted <==**
Pressure = 0.875 psi
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **36**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## 8 .12 Temperature Output
The ABP2 Series sensor temperature output may be expressed by the transfer function of the device as shown in Equation 3:
## Equation 3: Temperature Output Transfer Function
**==> picture [149 x 25] intentionally omitted <==**
Where:
Temperature = calculated temperature output in °C
Tout = digital temperature output in counts (decimal) Tmax. = 150°C Tmin. = -50°C
Example: Calculate the temperature for a temperature output of 6291456 (decimal) counts.
**==> picture [157 x 67] intentionally omitted <==**
Temperature = 25°C
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **37**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## 8 .2 ANALOG OUTPUT VERSIONS
The ABP2 Series sensor temperature output may be expressed by the transfer function of the device as shown in Equation 1:
## Equation 1: Pressure Output Transfer Function
**==> picture [247 x 68] intentionally omitted <==**
Where:
Outputmax. = output at maximum pressure [Vdc]
Outputmin. = output at minimum pressure [Vdc] Pmax. = maximum value of pressure range [bar, psi, kPa, etc.]
Pmin. = minimum value of pressure range [bar, psi, kPa, etc.] Pressure = pressure reading [bar, psi, kPa, etc.]
Output = digital pressure reading [Vdc]
Example: Calculate the pressure for a -1 psi to 1 psi gage sensor with a 10% to 90% calibration, and a pressure output of 2.805 Vdc at 3.3 Vdc supply voltage:
Outputmax. = 2.97 Vdc (90% of Vsupply) Outputmin. = 0.33 Vdc (10% of Vsupply) Pmax. = 1 psi Pmin. = -1 psi Pressure = pressure in psi Output = 2.805 Vdc
**==> picture [187 x 72] intentionally omitted <==**
Pressure = 0.875 psi
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **38**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## 9 .0 RECOMMENDED PNEUMATIC SENSOR CONNECTIONS
## 9 .1 TUBING
Tubing is a common method of pneumatically connecting to the sensors and needs to be matched to the sensor’s application to provide the required operating temperature range and working pressure. Depending on the working pressure range and operating temperature, the corresponding type of tubing can be selected (i.e., Superthane®, silicone, and vinyl). Silicone tubing, for instance, tends to be the easiest to which to connect; however, its working pressure is not as high as that of the other materials.
The lower the shore rating for the tubing, the easier it is to insert the tubing onto the sensor’s pressure port; however, the lower shore rated tubing also has lower working pressures. For working pressures of 20 psi and below, silicone or vinyl tubing tends to be used. For pressures above 20 psi, Superthane® or low-density polyethylene tubing may be considered. Table 28 shows recommended tubing for use with Honeywell’s Basic Board Mount Pressure Sensors.
Generally, when the working pressure is 15 psi or less, clamps are typically not required. However, because each application is different, the end use must be taken into account before determining whether clamps are necessary to ensure that the tubing remains in place and doesn’t leak. Considerations include vibration, pressure spikes, and the type of tubing being used. A common clamping method is to use a plastic cable tie, available in a variety of sizes and found in most hardware stores. They are relatively easy to install and stay in place over time.
## NOTICE
Instead of using a clamp, a small drop of epoxy may be applied to either pressure port prior to the tubing being placed onto the port or applied at the end of the tubing once the tubing is in place. This method holds the tubing in place and can further act as a sealing agent to help ensure a leak-tight connection between the pressure port and the tubing. A room temperature sealant is generally used for this purpose. Ensure that the epoxy doesn’t block the hole in the port as it needs to remain open.
## NOTICE
To apply a more rigid tubing-to-port connection, a low-power heat gun may be used to slightly heat the tubing. Once cooled, the tubing tends to grip the pressure port better.
TABLE 28. RECOMMENDED TUBING
**==> picture [542 x 275] intentionally omitted <==**
**----- Start of picture text -----**<br>
PRESSURE PART PRESSURE AT 25°C<br>MANUFACTURER TYPE ID OD<br>PORT NUMBER (PSI)<br>Fre-Thane®<br>AN Frelin-Wade 1A-156-11 0.093 in 0.156 in 210<br>(polyurethane)<br>AN Frelin-Wade nylon 1A-200-01 0.093 in 0.125 in 270<br>AN NewAge Industries PVC 1100225 0.094 in 0.156 in 42<br>AN NewAge Industries silicone 2800315 0.094 in 0.156 in 20<br>AN McMaster silicone 5041K512 2,0 mm 6,0 mm 60<br>AN McMaster silicone 5041K601 2,0 mm 6,0 mm 115<br>RN, RR Frelin-Wade Fre-Thane 95a-157 0.066 in 0.125 in 225<br>Superthane®<br>RN, RR NewAge Industries 2110535 0.066 in 0.125 in 135<br>(ether)<br>RN NewAge Industries silicone 2800161 0.063 in 0,188 in 20<br>RN, RR Du-Bro silicone 196 1/16 ID 0.063 in 0.125 in 20<br>Excelthane<br>RN, RR US Plastics 77901710 0.063 in 0.125 in 70<br>polyurethane<br>RN, RR McMaster silicone 5041K603 1,0 mm 3.00 in 15<br>DA McMaster silicone 5041K512 2,0 mm 6,0 mm 60<br>**----- End of picture text -----**<br>
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **39**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## 9 .2 O-RING MANIFOLD DESIGNS
O-rings may also be used to connect pneumatically to the sensor. Most O-ring manufacturers recommend a compression of 20% to 25% to provide the proper O-ring compression over the temperature range. Silicone or fluorosilicone O-rings are commonly used as they tend to take less of a set over temperature verses other O-ring materials. System operating temperatures and sealant media compatibility are the two most important parameters which must be considered when selecting an O-ring base polymer. See Figures 19 and 20, and Table 29 for more information.
FIGURE 19 . GUIDELINES FOR O-RING MANIFOLD DESIGNS[1]
**==> picture [541 x 560] intentionally omitted <==**
**----- Start of picture text -----**<br>
NN Pressure Port VN Pressure Port [2]<br>5,7 mm<br>5,74 mm Pressure manifold<br>Pressure manifold<br>O-ring size: O-ring size:<br>dash number -004 dash number -006<br>per AS-568 Standard per AS-568 Standard 1,8 mm<br>1,2 mm<br>O-Ring retainer plate<br>z= re<br>AN Pressure Port SN Pressure Port [2]<br>5,05 mm<br>5,29 mm<br>Pressure manifold<br>Pressure manifold<br>O-ring size:<br>dash number -004<br>per AS-568 Standard 1,85 mm<br>O-ring size:<br>dash number -005<br>O-Ring retainer plate per AS-568 Standard 2,5 mm<br>O-Ring retainer plate<br>1 The recommended design has been validated for operating conditions ranging from -40°C to 110°C and up to 16 bar gage pressure.The recommended design has been validated for operating conditions ranging from -40°C to 110°C and up to 16 bar gage pressure.<br>2 For more demanding applications, a second O-ring can be used with a gland height of 3,6 mm (VN pressure port) and 4,55 mm For more demanding applications, a second O-ring can be used with a gland height of 3,6 mm (VN pressure port) and 4,55 mm<br> (SN pressure port).<br>FIGURE 20 . FORCE VS % OF O-RING COMPRESSION<br>NOTICE<br>25<br>It is the buyer's sole responsibility to determine the<br>20 ee suitability of the product in the application.<br>15 [oe<br>Durometer: 70A<br>Size: -004<br>10<br>oe<br>5 a<br>0<br>St<br>0% 5% 10% 15% 20% 25% 30%<br>Recommended<br>compression range<br>% of O-ring Compression<br>Force (N)<br>**----- End of picture text -----**<br>
1 The recommended design has been validated for operating conditions ranging from -40°C to 110°C and up to 16 bar gage pressure.The recommended design has been validated for operating conditions ranging from -40°C to 110°C and up to 16 bar gage pressure. 2 For more demanding applications, a second O-ring can be used with a gland height of 3,6 mm (VN pressure port) and 4,55 mm For more demanding applications, a second O-ring can be used with a gland height of 3,6 mm (VN pressure port) and 4,55 mm (SN pressure port).
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **40**
## ABP2 SERIES BASIC BOARD MOUNT PRESSURE SENSORS
## TABLE 29. RECOMMENDED O-RINGS
**==> picture [542 x 188] intentionally omitted <==**
**----- Start of picture text -----**<br>
O-RING SIZE<br>AS-568<br>PRESSURE O-RING ID O-RING C/S PART SHORE<br>UNIFORM MATERIAL SUPPLIER<br>PORT (MM) (MM) NUMBER HARDNESS<br>DASH<br>NUMBERS<br>NN -004 1,78 1,78 fluoroelastomer McMaster 8333T114 durometer 70A<br>NN -004 1,78 1,78 silicone McMaster 1283N14 durometer 70A<br>AN -004 1,78 1,78 fluoroelastomer McMaster 8333T114 durometer 70A<br>AN -004 1,78 1,78 silicone McMaster 1283N14 durometer 70A<br>SN -005 2,75 1,78 fluoroelastomer McMaster 8333T115 durometer 70A<br>SN -005 2,75 1,78 silicone McMaster 1283N15 durometer 70A<br>VN -006 2,90 1,78 fluoroelastomer McMaster 8333T116 durometer 70A<br>VN -006 2,90 1,78 silicone McMaster 1283N16 durometer 70A<br>**----- End of picture text -----**<br>
ABP2 Series Basic Board Mount Pressure Sensors Datasheet | sps.honeywell.com/ast | **41**
## ADDITIONAL MATERIALS
The following associated literature is available at sps.honeywell.com/ast:
- Product range guide
- Application information
- CAD models
- Product images
## FOR MORE INFORMATION
Honeywell Advanced Sensing Technologies services its customers through a worldwide network of sales offices and distributors. For application assistance, current specifications, pricing or the nearest Authorized Distributor, visit our website or call:
## WARRANTY/REMEDY
Honeywell warrants goods of its manufacture as being free of defective materials and faulty workmanship during the applicable warranty period. Honeywell’s standard product warranty applies unless agreed to otherwise by Honeywell in writing; please refer to your order acknowledgment or consult your local sales office for specific warranty details. If warranted goods are returned to Honeywell during the period of coverage, Honeywell will repair or replace, at its option, without charge those items that Honeywell, in its sole discretion, finds defective. The foregoing is buyer’s sole remedy and is in lieu of all other warranties, expressed or implied, including those of merchantability and fitness for a particular purpose . In no event shall Honeywell be liable for consequential, special, or indirect damages .
While Honeywell may provide application assistance personally, through our literature and the Honeywell web site, it is buyer’s sole responsibility to determine the suitability of the product in the application.
Specifications may change without notice. The information we supply is believed to be accurate and reliable as of this writing. However, Honeywell assumes no responsibility for its use.
## m WARNING PERSONAL INJURY
DO NOT USE these products as safety or emergency stop devices or in any other application where failure of the product could result in personal injury.
Failure to comply with these instructions could result in death or serious injury .
## m WARNING MISUSE OF DOCUMENTATION
- The information presented in this product sheet is for reference only. Do not use this document as a product installation guide.
- • Complete installation, operation, and maintenance information is provided in the instructions supplied with each product.
Failure to comply with these instructions could result in death or serious injury .
USA/Canada +1 302 613 4491 Latin America +1 305 805 8188 Europe +44 1344 238258 Japan +81 (0) 3-6730-7152 Singapore +65 6355 2828 Greater China +86 4006396841
## Honeywell
Fre-Thane® is a registered trademark of Freelin-Wade Co. Superthane® is a registered trademark of NewAge® Industries.
## Advanced Sensing Technologies
830 East Arapaho Road Richardson, TX 75081 sps.honeywell.com/ast
32350268-D-EN | D | 05/21 © 2021 Honeywell International Inc. All rights reserved.
Updated at February 9, 2023
Honeywell is a globally recognized leader in the design and manufacture of advanced sensing and switching solutions. Renowned for engineering components that deliver enhanced precision and ruggedness, Honeywell provides essential technologies for demanding applications across critical healthcare, aerospace, and industrial equipment. With a comprehensive portfolio built to address both basic and complex design challenges, the company stands at the forefront of reliable electronic component manufacturing. The core of our Honeywell offering is an extensive selection of high-performance sensors and transducers. This includes a robust lineup of pressure sensors and transducers engineered for accurate fluid and gas measurement in challenging environments. Furthermore, we provide a wide array of temperature sensors and specialized temperature sensing NTC thermistors designed for stable thermal management, alongside precision current sensors and load cells that deliver critical feedback for control systems. Beyond advanced sensing technology, Honeywell’s expertise extends to essential circuit protection and electromechanical components. Our selection encompasses power relays, thermal magnetic circuit breakers, and standard terminal blocks, ensuring safe and efficient power distribution. Whether integrating core components or sourcing specialized accessories, design engineers can rely on Honeywell for uncompromising quality and operational excellence.
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