ELVH-M100G-HKNJ-C-N4A4

## **ELV Series - Analog and Digital Pressure Sensor Product Families** 

## Table of Contents 

Features & Applications ................................... 2 Maximum Ratings ............................................ 2 Environmental Specifications ........................... 2 Equivalent Circuit ............................................. 2 Product Family Highlights ................................ 3 Pressure Ranges ............................................ 4-6 Performance Characteristics 

ELVH ................................................. 7 ELVI & ELVE  ..................................... 8 ELVA ................................................. 9 How to Order Tables ELVH ............................................... 10 ELVI ................................................. 11 ELVE ................................................ 12 ELVA ............................................... 13 Parylene Coating ............................................ 14 Soldering Recommendations .......................... 14 Evaluation Kit ................................................. 14 Digital Interfaces ELVH: I2C & SPI ......................... 15-18 ELVI: I2C .................................... 19-20 ELVE: SPI .................................... 21-22 Product Labeling & Pin Indicator .................... 23 Pressure Tubing Recommendations ................ 23 Pad Layouts ................................................... 23 Dimensional Package Drawings DIP ............................................. 24-26 SMT ............................................ 27-28 SIP H-Lead .................................. 29-30 SIL F-Lead ................................... 31-33 

## **Introduction** 

The ELV Analog and Digital Pressure Sensor Series consists of four new product families featuring All Sensors’ ultra low pressure CoBeam[2 TM] Technology. This innovative sensing element technology provides best-in-class stability for low and ultra low pressure ranges, with the ability to customize calibrations and pressure ranges from a proven world class supplier. 

The ELV series gives design engineers outstanding flexibility with an exceptional number of choices in package combination. 

The digital interface eases integration of the sensors into a variety of process control and measurement systems, allowing direct connection to serial communications channels. 

These calibrated and compensated sensors provide accurate, stable output over a wide temperature range. This series is intended for use with non-corrosive, non-ionic working fluids such as air and other dry gases. A protective parylene coating is optionally available for moisture/harsh media protection. 

https://www.allsensors.com/products/elv-series 

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ELV Series: Analog & Digital Pressure Sensors 

## Features 

- Pressure Ranges from ±0.5 inH2O to 150 psi and ±2.5mbar to ±10 bar 

- Precision ASIC Conditioning 

- Digital I[2] C or SPI Interface or Analog Only Options 

- 3V, 3.3V and 5V Supply Voltage Options 

## Applications 

- Medical Devices 

- Medical Instrumentation 

- Respiratory 

- Portable / Hand-Held Equipment 

- Environmental Controls 

- Environmental Instrumentation 

- Environmental Monitoring 

## Wetted Media 

   - Silicon 

   - RTV 

   - Gold 

   - Ceramic 

   - Epoxy 

   - Nylon Plastic 

   - Aluminum 

- HVAC 

- Industrial Controls 

- Altimeters 

- Chemical Analysis 

- Meteorology 

**==> picture [459 x 249] intentionally omitted <==**

**----- Start of picture text -----**<br>
Pressure Sensor Maximum Ratings Environmental Specifications<br>Supply Voltage (Vs)  2.7 to 5.5 Vdc Temperature Ranges<br>Compensated:  Standard 0°C to 50°C<br>Industrial  -20°C to 85°C<br>Maximum Device Temperature  245°<br>Operating  -25°C to 85°C<br>Storage -40°C to 125°C<br>Humidity Limits (non condensing) 0 to 95% RH<br>Equivalent Circuit<br>Analog I2C SPI<br>+Vs +Vs +Vs<br>SCL MISO<br>CLK<br>Vout SS<br>SDA MOSI<br>GND GND GND<br>See package drawings for pinouts.<br>**----- End of picture text -----**<br>


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## **ELVH Product Family Highlights** 

- 0.5 inH2O up to 60 inH2O and 1 psi up to 150 psi pressure ranges. 2.5 mbar up to 10 bar 

- pressure ranges 

- Offered in Differential, Gage and Absolute pressure modes 

- 0 to 50°C and -20 to 85°C Temperature compensation options 

- Output offered as 

   - Digital I[2] C or SPI in 14 bit output or Ratiometric Analog option 

   - 6 unique I[2] C address options 

   - 4 unique transfer function options 

- 3.3V and 5V Supply Voltage offerings 

- Available in Numerous Port options: 

   - No port 

   - Barbed axial port 

   - Needle big port 

   - Side port 

   - Other packages also available, check with factory 

- Numerous lead options: 

   - SMT J-lead 

   - DIP lead 

   - SIP lead 

- Parylene Coating offered on pressure ranges of 10 inH2O and above 

## **ELVI, ELVE & ELVA Product Family Highlights** 

- 100 mbar up to 10 bar pressure ranges 

- Offered in Differential, Gage and Absolute pressure modes 

- -20 to 85°C Temperature compensation 

- Output options offered: 

   - ELVI I2C only, non-ratiometric 

   - ELVE SPI only, non-ratiometric 

   - ELVA Analog only, ratiometric 

- 3V and 5V Supply Voltage offerings 

- Available in Numerous Port options: 

   - No port 

   - Barbed axial port 

   - Needle big port 

   - Other packages also available, check with factory 

- Numerous lead options: 

   - SMT J-lead 

   - DIP lead 

   - SIL lead 

- Parylene Coating offered on pressure ranges of 100 mbar and above 

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## **ELVH Series Pressure Ran es g** 

||ELV Series - Digital and Analog Pressure Sensor Product Families<br>**Pmin**<br>**Pmax**<br>F50D<br>-0.5<br>0.5<br>Differential<br>0.1<br>270<br>67<br>415<br>103<br>415<br>103<br>L01D<br>-1<br>1<br>Differential<br>0.2<br>270<br>67<br>415<br>103<br>415<br>103<br>L02D<br>-2<br>2<br>Differential<br>0.5<br>270<br>67<br>415<br>103<br>415<br>103<br>L04D<br>-4<br>4<br>Differential<br>1.0<br>300<br>75<br>415<br>103<br>415<br>103<br>L05D<br>-5<br>5<br>Differential<br>1.2<br>300<br>75<br>415<br>103<br>415<br>103<br>L10D<br>-10<br>10<br>Differential<br>2.5<br>350<br>87<br>415<br>103<br>415<br>103<br>L20D<br>-20<br>20<br>Differential<br>5.0<br>350<br>87<br>415<br>103<br>415<br>103<br>L30D<br>-30<br>30<br>Differential<br>7.5<br>350<br>87<br>415<br>103<br>415<br>103<br>L60D<br>-60<br>60<br>Differential<br>14.9<br>350<br>87<br>415<br>103<br>415<br>103<br>L01G<br>0<br>1<br>Gage<br>0.2<br>270<br>67<br>415<br>103<br>415<br>103<br>L02G<br>0<br>2<br>Gage<br>0.5<br>270<br>67<br>415<br>103<br>415<br>103<br>L04G<br>0<br>4<br>Gage<br>1.0<br>300<br>75<br>415<br>103<br>415<br>103<br>L05G<br>0<br>5<br>Gage<br>1.2<br>300<br>75<br>415<br>103<br>415<br>103<br>L10G<br>0<br>10<br>Gage<br>2.5<br>350<br>87<br>415<br>103<br>415<br>103<br>L20G<br>0<br>20<br>Gage<br>5.0<br>350<br>87<br>415<br>103<br>415<br>103<br>L30G<br>0<br>30<br>Gage<br>7.5<br>350<br>87<br>415<br>103<br>415<br>103<br>L60G<br>0<br>60<br>Gage<br>14.9<br>350<br>87<br>415<br>103<br>415<br>103<br>**Pmin**<br>**Pmax**<br>001D<br>-1<br>1<br>Differential<br>7<br>10<br>69<br>15<br>103<br>15<br>103<br>005D<br>-5<br>5<br>Differential<br>34<br>15<br>103<br>15<br>103<br>15<br>103<br>015D<br>-15<br>15<br>Differential<br>103<br>30<br>207<br>150<br>1034<br>250<br>1724<br>030D<br>-30<br>30<br>Differential<br>207<br>60<br>414<br>250<br>1724<br>250<br>1724<br>060D<br>-60<br>60<br>Differential<br>414<br>120<br>827<br>250<br>1724<br>250<br>1724<br>001G<br>0<br>1<br>Gage<br>7<br>10<br>69<br>15<br>103<br>15<br>103<br>005G<br>0<br>5<br>Gage<br>34<br>15<br>103<br>15<br>103<br>15<br>103<br>015G<br>0<br>15<br>Gage<br>103<br>30<br>207<br>75<br>517<br>250<br>1724<br>030G<br>0<br>30<br>Gage<br>207<br>60<br>414<br>150<br>1034<br>250<br>1724<br>060G<br>0<br>60<br>Gage<br>414<br>120<br>827<br>250<br>1724<br>250<br>1724<br>100G<br>0<br>100<br>Gage<br>690<br>250<br>1724<br>250<br>1724<br>250<br>1724<br>150G<br>0<br>150<br>Gage<br>1034<br>250<br>1724<br>250<br>1724<br>250<br>1724<br>015A<br>0<br>15<br>Absolute<br>103<br>15<br>103<br>15<br>103<br>15<br>103<br>030A<br>0<br>30<br>Absolute<br>207<br>60<br>414<br>150<br>1034<br>250<br>1724<br>060A<br>0<br>60<br>Absolute<br>414<br>120<br>827<br>250<br>1724<br>250<br>1724<br>100A<br>0<br>100<br>Absolute<br>690<br>250<br>1724<br>250<br>1724<br>250<br>1724<br>150A<br>0<br>150<br>Absolute<br>1034<br>250<br>1724<br>250<br>1724<br>250<br>1724<br>**ELVH Series Pressure Ranges**<br>**Pressure Range1**<br>**Proof Pressure2**<br>**Burst Pressure3**<br>**Common Mode**<br>**Pressure4**<br>**psi**<br>**kPa**<br>**psi**<br>**kPa**<br>**psi**<br>**CODE**<br>**Pressure**<br>**Mode**<br>**kPa**<br>**psi**<br>**kPa**<br>**inH2O**<br>**CODE**<br>**Pressure**<br>**Mode**<br>**kPa**<br>**kPa**<br>**inH2O**<br>**kPa**<br>**inH2O**<br>**kPa**<br>**inH2O**<br>Note 1: Pressure ranges in Pa and kPa are expressed as an approximate value.<br>Note 2: Differential Proof Pressure: The maximum pressure which may safely be applied to one port of the product for it to remain in specification once pressure is returned to<br>the operating pressure range. Exposure to higher pressures may cause permanent damage to the product.<br>Note 3: Differential Burst Pressure: The maximum pressure that may be applied to one port of the product without causing escape of pressure media. Product should not be<br>expected to function after exposure to any pressure beyond the burst pressure.<br>Note 4:  Common Mode Pressure: The maximum pressure that can be applied simultaneously to both ports of a differential pressure sensor without causing escape of pressure<br>media. Product should not be expected to function after exposure to any pressure beyond the this maximum pressure.|
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Note 1: Pressure ranges in Pa and kPa are expressed as an approximate value. 

Note 2: Differential Proof Pressure: The maximum pressure which may safely be applied to one port of 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. 

Note 3: Differential Burst Pressure: The maximum pressure that may be applied to one port of the product without causing escape of pressure media. Product should not be expected to function after exposure to any pressure beyond the burst pressure. 

Note 4:  Common Mode Pressure: The maximum pressure that can be applied simultaneously to both ports of a differential pressure sensor without causing escape of pressure media. Product should not be expected to function after exposure to any pressure beyond the this maximum pressure. 

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## **ELVH Series Pressure Ranges (Cont'd)** 

|All Sensors<br>DS-0376 Rev B<br>**Pmin**<br>**Pmax**<br>MF25D<br>-2.5<br>2.5<br>Differential<br>0.25<br>675<br>68<br>1034<br>103<br>1034<br>103<br>MF12D<br>-12.5<br>12.5<br>Differential<br>1.25<br>750<br>75<br>1034<br>103<br>1034<br>103<br>M025D<br>-25<br>25<br>Differential<br>2.5<br>850<br>85<br>1034<br>103<br>1034<br>103<br>M050D<br>-50<br>50<br>Differential<br>5<br>850<br>85<br>1034<br>103<br>1034<br>103<br>M075D<br>-75<br>75<br>Differential<br>7.5<br>850<br>85<br>1034<br>103<br>1034<br>103<br>M100D<br>-100<br>100<br>Differential<br>10<br>1034<br>103<br>1034<br>103<br>1034<br>103<br>M160D<br>-160<br>160<br>Differential<br>16<br>1034<br>103<br>1034<br>103<br>1034<br>103<br>M250D<br>-250<br>250<br>Differential<br>25<br>1034<br>103<br>1034<br>103<br>1034<br>103<br>M500D<br>-500<br>500<br>Differential<br>50<br>2000<br>200<br>1034<br>103<br>1034<br>103<br>MF25G<br>0<br>2.5<br>Gage<br>0.25<br>675<br>68<br>1034<br>103<br>1034<br>103<br>MF12G<br>0<br>12.5<br>Gage<br>1.3<br>675<br>68<br>1034<br>103<br>1034<br>103<br>M025G<br>0<br>25<br>Gage<br>2.5<br>750<br>75<br>1034<br>103<br>1034<br>103<br>M050G<br>0<br>50<br>Gage<br>5.0<br>850<br>85<br>1034<br>103<br>1034<br>103<br>M075G<br>0<br>75<br>Gage<br>7.5<br>850<br>85<br>1034<br>103<br>1034<br>103<br>M100G<br>0<br>100<br>Gage<br>10<br>850<br>85<br>1034<br>103<br>1034<br>103<br>M160G<br>0<br>160<br>Gage<br>16<br>1034<br>103<br>1034<br>103<br>1034<br>103<br>M250G<br>0<br>250<br>Gage<br>25<br>1034<br>103<br>1034<br>103<br>1034<br>103<br>M500G<br>0<br>500<br>Gage<br>50<br>1034<br>103<br>1034<br>103<br>1034<br>103<br>MN50G<br>-500<br>0<br>Gage<br>-50 to 0<br>1034<br>103<br>5171<br>517<br>17237<br>1724<br>M611A<br>600<br>1100<br>Absolute<br>60 to 110<br>1034<br>103<br>5171<br>517<br>17237<br>1724<br>**Pmin**<br>**Pmax**<br>B001D<br>-1<br>1<br>Differential<br>100<br>3.1<br>310<br>10.3<br>1034<br>17.2<br>1724<br>BF25D<br>-2.5<br>2.5<br>Differential<br>250<br>7.2<br>720<br>17.2<br>1724<br>17.2<br>1724<br>B005D<br>-5<br>5<br>Differential<br>500<br>12.4<br>1240<br>17.2<br>1724<br>17.2<br>1724<br>B010D<br>-10<br>10<br>Differential<br>1000<br>17<br>1700<br>17.2<br>1724<br>17.2<br>1724<br>BN01G<br>-1<br>0<br>Gage<br>-100 to 0<br>2<br>200<br>5.2<br>517<br>17.2<br>1724<br>B001G<br>0<br>1<br>Gage<br>100<br>2<br>200<br>5.2<br>517<br>17.2<br>1724<br>BF25G<br>0<br>2.5<br>Gage<br>250<br>6.2<br>620<br>10.3<br>1034<br>17.2<br>1724<br>B005G<br>0<br>5<br>Gage<br>500<br>8<br>800<br>17.2<br>1724<br>17.2<br>1724<br>B010G<br>0<br>10<br>Gage<br>1000<br>17<br>1700<br>17.2<br>1724<br>17.2<br>1724<br>B001A<br>0<br>1<br>Absolute<br>100<br>1<br>100<br>1.0<br>103<br>1.0<br>103<br>B002A<br>0<br>2<br>Absolute<br>200<br>5<br>500<br>10.3<br>1034<br>17.2<br>1724<br>**kPa**<br>**kPa**<br>**mbar**<br>**kPa**<br>**mbar**<br>**kPa**<br>**ELVHH Series Pressure Ranges (Cont'd)ges (Cont'd)es (Cont'd)(Cont'd)Cont'd))**<br>**Pressure Range1**<br>**Proof Pressure2**<br>**Burst Pressure3**<br>**Common Mode**<br>**Pressure4**<br>**kPa**<br>**bar**<br>**mbar**<br>**CODE**<br>**Pressure**<br>**Mode**<br>**kPa**<br>**bar**<br>**kPa**<br>**bar**<br>**kPa**<br>**bar**<br>**mbar**<br>**CODE**<br>**Pressure**<br>**Mode**|a16035 Vineyard Blvd. Morgan Hill, CA 95037<br>p408 225 4314f408 225 2079ewww.allsensors.com<br>all sensors<br>A.|
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## **ELVI, ELVE, ELVA Series Pressure Ranges** 

||ELV Series - Digital and Analog Pressure Sensor Product Families<br>**Pmin**<br>**Pmax**<br>M100D<br>-100 100<br>Differential<br>10<br>1034<br>103<br>1034<br>103<br>1034<br>103<br>M160D<br>-160 160<br>Differential<br>16<br>1034<br>103<br>1034<br>103<br>1034<br>103<br>M250D<br>-250 250<br>Differential<br>25<br>1034<br>103<br>1034<br>103<br>1034<br>103<br>M500D<br>-500 500<br>Differential<br>50<br>1034<br>103<br>1034<br>103<br>1034<br>103<br>M100G<br>0<br>100<br>Gage<br>10<br>850<br>85<br>1034<br>103<br>1034<br>103<br>M160G<br>0<br>160<br>Gage<br>16<br>1034<br>103<br>1034<br>103<br>1034<br>103<br>M250G<br>0<br>250<br>Gage<br>25<br>1034<br>103<br>1034<br>103<br>1034<br>103<br>M500G<br>0<br>500<br>Gage<br>50<br>1034<br>103<br>1034<br>103<br>1034<br>103<br>**Pmin**<br>**Pmax**<br>B001D<br>-1<br>1<br>Differential<br>100<br>3.1<br>310<br>10.3<br>1034<br>17.2<br>1724<br>B001G<br>0<br>1<br>Gage<br>100<br>3.1<br>310<br>10.3<br>1034<br>17.2<br>1724<br>BF25G<br>0<br>2.5<br>Gage<br>250<br>6<br>620<br>17.2<br>1724<br>17.2<br>1724<br>B005G<br>0<br>5<br>Gage<br>500<br>12<br>1240<br>17.2<br>1724<br>17.2<br>1724<br>B010G<br>0<br>10<br>Gage<br>1000<br>14<br>1400<br>17.2<br>1724<br>17.2<br>1724<br>B001A<br>0<br>1<br>Absolute<br>100<br>1<br>100<br>1.0<br>103<br>1.0<br>103<br>B002A<br>0<br>2<br>Absolute<br>200<br>5<br>500<br>10.3<br>1034<br>17.2<br>1724<br>**Pmin**<br>**Pmax**<br>001D<br>-1<br>1<br>Differential<br>7<br>15<br>103<br>15<br>103<br>15<br>103<br>001G<br>0<br>1<br>Gage<br>7<br>15<br>103<br>15<br>103<br>15<br>103<br>100G<br>0<br>100<br>Gage<br>690<br>200<br>1379<br>250<br>1724<br>250<br>1724<br>**kPa**<br>**psi**<br>**kPa**<br>**bar**<br>**kPa**<br>**psi**<br>**kPa**<br>**kPa**<br>**mbar**<br>**kPa**<br>**mbar**<br>**kPa**<br>**bar**<br>**kPa**<br>**bar**<br>**kPa**<br>**psi**<br>**Pressure**<br>**Mode**<br>**kPa**<br>**CODE**<br>**Pressure**<br>**Mode**<br>**kPa**<br>**bar**<br>**psi**<br>**ELVI, ELVE, ELVA Series Pressure Ranges**<br>**Pressure Range1**<br>**Proof Pressure2**<br>**Burst Pressure3**<br>**Common Mode**<br>**Pressure4**<br>**mbar**<br>**Pressure**<br>**Mode**<br>**kPa**<br>**CODE**<br>**mbar**<br>**CODE**|
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## **ELVH Output Series Performance Table** 

3.3V or 5V, Ref temp 25°C. Positive Pressure applied to Port B (top port) 

**Parameter Digital Analog** ~~ee~~ **Full Scale Span** ~~ee~~ **Min** ~~ee~~ **Typ** ~~ee~~ **Max Units** ~~ee~~ **Notes Min Typ Max Units Notes** (10% - 90%, 5% - 85% Transfer Function Options) xxxD (Differential) - ±6554 - Count (Dec) 5 - ±40% VS - V 5 xxxG (Gage), xxxA (Absolute) - 13108 - Count (Dec) 5 - 80% VS - V 5 (5% - 95%, 4% - 94% Transfer Function Options) xxxD (Differential) - ±7373 - Count (Dec) 5 - ±45% VS - V 5 xxxG (Gage), xxxA (Absolute) - 14746 - Count (Dec) 5 - 90% VS - V 5 **Offset** (10% - 90% Transfer Function Option) xxxD (Differential) - 8192 - Count (Dec) - - 50% VS - V - xxxG (Gage), xxxA (Absolute) - 1638 - Count (Dec) - - 10% VS - V - (5% - 95% Transfer Function Option) xxxD (Differential) - 8192 - Count (Dec) - - 50% VS - V - xxxG (Gage), xxxA (Absolute) - 819 - Count (Dec) - - 5% VS - V - (5% - 85% Transfer Function Option) xxxD (Differential) - 7373 - Count (Dec) - - 45% VS - V - xxxG (Gage), xxxA (Absolute) - 819 - Count (Dec) - - 5% VS - V - (4% - 94% Transfer Function Option) xxxD (Differential) - 8028 - Count (Dec) - - 49% VS - V - xxxG (Gage), xxxA (Absolute) - 655 - Count (Dec) - - 4% VS - V - **Accuracy** - - ±0.25 %FSS 6 - - ±0.25 %FSS 6 **Total Error Band (TEB)** F50D, L01G, MF25G - ±0.5 ±3 %FSS 7 - ±0.5 ±3 %FSS 7 L01D, L02G, MF25D - ±0.5 ±2 %FSS 7 - ±0.5 ±2 %FSS 7 L04G - ±0.5 ±1.5 %FSS 7 - ±0.5 ±1.5 %FSS 7 Remaining ranges - ±0.5 ±1 %FSS 7 - ±0.5 ±1 %FSS 7 **Position Sensitivity** 8 L02x, MF25x, & Below - ±0.2 - %FSS 8 - ±0.2 - %FSS Above L02x & MF25x - ±0.1 - %FSS 8 - ±0.1 - %FSS **Startup Time** - - 3 ms - - - 5 ms - ~~re~~ **Response Time** - 0.46 - ms - - 1 - ms - **Supply Current** 3.3V Supply Option - 3.1 3.9 mA - - 2.1 2.8 mA - ~~mi~~ 5V Supply Option ~~a~~ - 3.7 4.6 mA - - 2.7 3.5 mA - ELVH Output Performance Specification Notes **Note 5:** Full Scale Span (FSS) is the algebraic difference between the output signal for the highest and lowest specfied pressure. 

## **Note 6** : Accuracy is the measured deviation based on Best Fit Straight Line (BFSL). 

**Note 7** : Total Error Band is calculated from a combination of all possible errors, including offset, span temperature, calibration, linearity, pressure hysteresis, offset warm-up shift, offset position sensitivity, and long term offset drift. 

**Note 8** : Parameter is characterized and not 100% tested. 

## Temperature Output Conversion Function: 

**==> picture [148 x 17] intentionally omitted <==**

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## **ELVI & ELVE Output Series Performance Table** 

3 or 5V, Ref temp 25°C. Positive Pressure applied to Port B (top port) 

|**Parameter**|**Digital**|**Digital**|**Digital**|**Digital**|**Digital**|
|---|---|---|---|---|---|
||**Min**|**Typ**|**Max**|**Units**|**Notes**|
|||||||
|**Full Scale Span (FSS)**|-|27000|-|Count (Dec)|5|
|||||||
|**Full Scale Output (FSO)**||||||
|Min Pressure<br>Max Pressure|2595<br>29595|3000<br>30000|3405<br>30405|Count (Dec)<br>Count (Dec)|-<br>-|
|**Offset**||||||
|xxxD (Differential)<br>xxxG (Gage), xxxA (Absolute)|16095<br>2595|16500<br>3000|16905<br>3405|Count (Dec)<br>Count (Dec)|-<br>-|
|**Accuracy**|-|-|±0.25|%FSS|6|
|||||||
|**Total Error Band (TEB)**|-|-|±1.5|%FSS|7|
|||||||
|**A/D Resolution**|-|12|-|bit|-|
|||||||
|**Response Delay**|-|0.5|-|ms|9|
|||||||
|**Current Consumption**||||||
|3V Supply Option<br>5V Supply Option|-<br>-|4.5<br>5.3|-<br>-|mA<br>mA|-<br>-|



## ELVI & ELVE Output Performance Specification Notes 

**Note 5:** Full Scale Span (FSS) is the algebraic difference between the output signal for the highest and lowest specified pressure. 

**Note 6** : Accuracy is the measured deviation based on Best Fit Straight Line (BFSL). 

**Note 7** : Total Error Band is calculated from a combination of all possible errors, including offset, span temperature, calibration, linearity, pressure hysteresis, offset warm-up shift, offset position sensitivity, and long term offset drift. 

**Note 9** : Max. delay time between pressure change at the pressure die and signal change at the output. 

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## **ELVA Output Series Performance Table** 

3 or 5V, Ref temp 25°C. Positive Pressure applied to Port B (top port) 

||~~eeeeeee~~|~~eeeeeee~~|~~eeeeeee~~|~~eeeeeee~~|~~eeeeeee~~|
|---|---|---|---|---|---|
|**Parameter**<br>~~a~~|**Analog**<br>~~Oe~~<br>~~eeeeeee~~|||||
||**Min**<br>~~Oe~~<br>~~eee~~|**Typ**<br>~~Oe~~<br>~~eee~~|**Max**<br>~~Oe~~<br>~~ee~~|**Units**<br>~~Oe~~<br>~~ee~~|**Notes**<br>~~Oe~~<br>~~ee~~|
|**Full Scale Span (FSS)**<br>3V Supply Option<br>5V Supply Option<br>~~ss~~|-<br>-<br>0.26<br>2.66<br>0.44<br>4.44<br>~~eee~~<br>~~ss~~<br>~~sss~~<br>~~ee~~|2.4<br>4<br>0.3<br>2.7<br>0.5<br>4.5<br>~~eee ~~<br>~~ss~~<br>~~sss~~<br>~~ee~~|-<br>-<br>0.34<br>2.74<br>0.56<br>4.56<br> ~~ee ~~<br>~~ss~~<br>~~sss~~<br>~~ee~~|V<br>V<br>V<br>V<br>V<br>V<br> ~~ee~~<br>~~ss~~<br>~~sss~~<br>~~ee~~|5<br>5<br>-<br>-<br>-<br>-<br>~~ee~~<br>~~ss~~<br>~~sss~~<br>~~ee~~|
|**Full Scale Output (FSO) (3V Option)**<br>Min Pressure<br>Max Pressure<br>~~ss~~<br>~~sss~~||||||
|**Full Scale Output (FSO) (5V Option)**<br>Min Pressure<br>Max Pressure<br>~~sss~~<br>~~ee~~||||||
|**Offset  (3V Option)**<br>xxxD (Differential)<br>xxxG (Gage), xxxA (Absolute)<br>~~eee~~|1.46<br>0.26<br>~~eee~~|1.5<br>0.3<br>~~eee~~|1.54<br>0.34<br>~~eee~~|V<br>V<br>~~eee~~|-<br>-<br>~~eee~~|
|**Offset (5V Option)**<br>xxxD (Differential)<br>xxxG (Gage), xxxA (Absolute)<br>**Accuracy**<br>**Total Error Band (TEB)**<br>**A/D Resolution**<br>**D/A Resolution**<br>**Response Delay**<br>**Current Consumption**<br>3V Supply Option<br>5V Supply Option<br>~~ee~~<br>~~ee~~|2.44<br>0.44<br>-<br>-<br>-<br>-<br>-<br>-<br>-<br>~~ee~~<br>~~ee~~<br>~~ee~~|2.5<br>0.5<br>-<br>-<br>12<br>-<br>0.5<br>4.5<br>5.3<br>~~ee~~<br>~~ee~~<br>~~ee~~|2.56<br>0.56<br>±0.25<br>±1.5<br>-<br>11<br>-<br>-<br>-<br>~~ee~~<br>~~ee~~<br>~~ee~~|V<br>V<br>%FSS<br>%FSS<br>bit<br>bit<br>ms<br>mA<br>mA<br>~~ee~~<br>~~ee~~|-<br>-<br>6<br>7<br>-<br>-<br>9<br>-<br>-<br>~~ee~~<br>~~ee~~|



## ELVA Output Performance Specification Notes 

**Note 5:** Full Scale Span (FSS) is the algebraic difference between the output signal for the highest and lowest specified pressure. 

**Note 6** : Accuracy is the measured deviation based on Best Fit Straight Line (BFSL). 

**Note 7** : Total Error Band is calculated from a combination of all possible errors, including offset, span temperature, calibration, linearity, pressure hysteresis, offset warm-up shift, offset position sensitivity, and long term offset drift. **Note 9** : Max. delay time between pressure change at the pressure die and signal change at the output. 

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## How to Order ELVH Series 

For example, **ELVH-L01D-HRRD-C-NAA4** defines an All Sensors ELVH Series Analog + Digital Presure Sensor, 1 inH2O differential pressure range, HRRD package (DIP with dual same side barbed ports), compensated temperature range from 0°C to 50°C, no parylene coating, Analog output,10 to 90% of Vsupply transfer function, 3.3 Vdc supply voltage. 

**==> picture [441 x 464] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|
|ELVH|-|L01D|-|HRRD|-|C|-|N|A|A|4|
|Product Series|
|ELV|Digital and Analog Series|
|Supply Voltage|
|4|3.3 Vdc|
|Pressure Ranges|[Note 10]|Coating|5|5.0 Vdc|
|N|No Parylene|
|Differential|Gage|Absolute|P|Parylene|Transfer Function|
|F50D|± 0.5 inH2O|L01G|0 to 1 inH2O|015A|0 to 15 psi|A|10% to 90% of Vsupply (analog), 2|[14 ]|counts (digital)|
|L01D|± 1 inH2O|L02G|0 to 2 inH2O|030A|0 to 30 psi|B|5% to 95% of Vsupply (analog), 2|[14 ]|counts (digital)|
|L02D|± 2 inH2O|L04G|0 to 4 inH2O|060A|0 to 60 psi|Compensated|C|5% to 85% of Vsupply (analog), 2|[14 ]|counts (digital)|
|L04D|± 4 inH2O|L05G|0 to 5 inH2O|100A|0 to 100 psi|Temperature|D|4% to 94% of Vsupply (analog), 2|[14 ]|counts (digital)|
|L05D|± 5 inH2O|L10G|0 to 10 inH2O|150A|0 to 150 psi|Range|
|L10D|± 10 inH2O|L20G|0 to 20 inH2O|M611A|600 to 1100 mbar|C|0°C to 50°C|
|L20D|± 20 inH2O|L30G|0 to 30 inH2O|B001A|0 to 1 bar|I|-20°C to 85°C|
|L30D|± 30 inH2O|L60G|0 to 60 inH2O|B002A|0 to 2 bar|Package Pinout Offering Code*|
|L60D|± 60 inH2O|001G|0 to 1 psi|Output Interface|DIP (8 pin)|SMT (8 pin)|SIP (4 pin)|
|001D|± 1 psi|005G|0 to 5 psi|A|Analog, (H-Style)|3|3|4|
|005D|± 5 psi|015G|0 to 15 psi|S|SPI|2|2|Not Available|
|015D|± 15 psi|030G|0 to 30 psi|2|I|[2]|C, Address 0x28|1|1|5|
|030D|± 30 psi|060G|0 to 60 psi|3|I|[2]|C, Address 0x38|1|1|5|
|060D|± 60 psi|100G|0 to 100 psi|4|I|[2]|C, Address 0x48|1|1|5|
|MF25D|± 2.5 mbar|150G|0 to 150 psi|5|I|[2]|C, Address 0x58|1|1|5|
|MF12D|± 12.5 mbar|MF25G|0 to 2.5 mbar|6|I|[2]|C, Address 0x68|1|1|5|
|M025D|± 25 mbar|MF12G|0 to 12.5 mbar|7|I|[2]|C, Address 0x78|1|1|5|
|M050D|± 50 mbar|M025G|0 to 25 mbar|
|M075D|± 75 mbar|M050G|0 to 50 mbar|Package Selection (4 Character Code)|[Note 10]|
|M100D|± 100 mbar|M075G|0 to 75 mbar|
|M160D|± 160 mbar|M100G|0 to 100 mbar|DIP|SMT J-Lead|SIP|
|M250D|[± 250 mbar]|M160G|0 to 160 mbar|
|M500D|[± 500 mbar]|M250G|0 to 250 mbar|HNND|HNNJ|HNNH|
|B001D|± 1 bar|M500G|0 to 500 mbar|||||i|||uy|ee|
|BF25D|± 2.5 bar|MN50G|-500 to 0 mbar|
|B005D|± 5 bar|BN01G|-1 to 0 bar|HAND|HANJ|HANH|
|B010D|± 10 bar|B001G|0 to 1 bar|
|BF25G|0 to 2.5 bar|
|B005G|0 to 5 bar|—|—|HAAH|
|B010G|0 to 10 bar|
|HRND|HRNJ|HRNH|
|*Package Pinout Offering Code Legend|
|HRRD|HRRJ|HRRH|
|Pin Code|Pin 1|Pin 2|Pin 3|Pin 4|Pin 5|Pin 6|Pin 7|Pin 8|a|
|1|GND|VS|SDA|SCL|N/C|N/C|N/C|N/C|
|2|GND|VS|MISO|SCLK|SS|N/C|N/C|N/C|HDRD|HDRJ|HDRH|
|3|N/C|VS|VOUT|GND|N/C|N/C|N/C|N/C|
|4|N/C|VS|VOUT|GND|-|-|-|-|
|5|GND|VS|SDA|SCL|-|-|-|-|HKND|HKNJ|—|
|N/C|: Not Internally Connected|?|
|Ce|C|
|HJND|HJNJ|HJNH|
|_|€|
|Ne|Cy|
|HJJD|HJJJ|HJJH|

**----- End of picture text -----**<br>


Refer to the Part Number Builder application on All Sensors’ website for help with cross reference to alternative suppliers’ part numbers. 

Note: Parylene Coating is not available for pressure ranges below 10 inH2O and 25 mbar or for J-Lead configurations. 

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## How to Order ELVI Series 

For example, **ELVI-M100D-HNNJ-C-N2E3** defines an All Sensors ELVI Series Digital Presure Sensor, 100 mbar differential pressure range, HNNJ package (SMT J-Lead with no ports), compensated temperature range from 0°C to 50°C, no parylene coating, I2C Output, Address 0x28, 9.16% to 91.55% of 2[15] counts (digital) transfer function and 3 Vdc supply voltage. 

**==> picture [440 x 353] intentionally omitted <==**

**----- Start of picture text -----**<br>
ELVI - M100D - HNNJ - C - N 2 E 3<br>Product Series<br>ELV Digital and Analog Series<br>Supply Voltage<br>3 3 Vdc<br>Pressure Ranges  [Note 10] Coating 5 5 Vdc<br>N No Parylene<br>Differential Gage Absolute P Parylene Transfer Function<br>M100DM160D  ± 160 mbar ± 100 mbar M100GM160G 0 to 160 mbar0 to 100 mbar B001AB002A 0 to 2 bar0 to 1 bar E 9.16% to 91.55% of 2 [15]  counts (digital)<br>M250D  ± 250 mbar M250G 0 to 250 mbar Compensated<br>M500D  ± 500 mbar M500G 0 to 500 mbar Temperature<br>B001D  ± 1 bar B001G 0 to 1 bar Range<br>001D ± 1 psi BF25G 0 to 2.5 bar C 0°C to 50°C<br>B005G 0 to 5 bar I -20°C to 85°C<br>B010G 0 to 10 bar Package Pinout Offering Code*<br>001G 0 to 1 psi Output Interface DIP (8 pin) SMT (8 pin) SIL (4 pin)<br>100G 0 to 100 psi 2 I [2] C, Address 0x28 1 1 5<br>3 I [2] C, Address 0x38 1 1 5<br>4 I [2] C, Address 0x48 1 1 5<br>5 I [2] C, Address 0x58 1 1 5<br>6 I [2] C, Address 0x68 1 1 5<br>7 I [2] C, Address 0x78 1 1 5<br>Package Selection (4 Character Code)  [Note 10]<br>DIP SMT J-Lead SIL F-Lead<br>*Package Pinout Offering Code Legend<br>HNND  HNNJ  HNNF<br>Pin Code Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 7 Pin 8<br>1 Vs GND N/C N/C SCL N/C N/C SDA<br>HAND  HANJ  HANF  5 Vs GND SCL SDA - - - -<br>:<br>N/C : Not Internally Connected<br>— — HAAF<br>HKND  HKNJ  HKNF<br>é<br>HCND  — —<br>a— Ze<br>**----- End of picture text -----**<br>


**==> picture [10 x 90] intentionally omitted <==**

**----- Start of picture text -----**<br>
all sensors<br>**----- End of picture text -----**<br>


Refer to the Part Number Builder application on All Sensors’ website for help with cross reference to alternative suppliers’ part numbers. 

Note: Parylene Coating is not available for pressure ranges below 10 inH2O and 25 mbar or for J-Lead configurations. 

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## How to Order ELVE Series 

For example, **ELVE-M100D-HNND-C-NTE3** defines an All Sensors ELVE Series Digital Presure Sensor, 100 mbar differential pressure range, HNNF package (DIP with no ports), compensated temperature range from 0°C to 50°C, no parylene coating, SPI Output, 9.16% to 91.55% of 2[15] counts transfer function and 3 Vdc supply voltage. 

**==> picture [442 x 415] intentionally omitted <==**

**----- Start of picture text -----**<br>
ELVE - M100D - HNND - C - N T E 3<br>Product Series<br>ELV Digital and Analog Series<br>Supply Voltage<br>3 3 Vdc<br>Pressure Ranges  [Note 10] Coating 5 5 Vdc<br>N No Parylene<br>Differential Gage Absolute P Parylene Transfer Function<br>M100D  ± 100 mbar M100G 0 to 100 mbar B001A 0 to 1 bar<br>M160D  ± 160 mbar M160G 0 to 160 mbar B002A 0 to 2 bar E 9.16% to 91.55% of 2 [15]  counts (digital)<br>M250D  ± 250 mbar M250G 0 to 250 mbar Compensated<br>M500D  ± 500 mbar M500G 0 to 500 mbar Temperature<br>B001D  ± 1 bar B001G 0 to 1 bar Range<br>001D ± 1 psi BF25G 0 to 2.5 bar C 0°C to 50°C<br>B005G 0 to 5 bar I -20°C to 85°C<br>B010G 0 to 10 bar Package Pinout Offering Code*<br>001G 0 to 1 psi Output Interface DIP (8 pin) SMT (8 pin) SIL (4 pin)<br>100G 0 to 100 psi T   SPI 2 2 Not Available<br>Package Selection (4 Character Code)<br>DIP SMT J-Lead<br>HNND  HNNJ<br>HAND  HANJ<br>HKND  HKNJ<br>HCND  —<br>*Package Pinout Offering Code Legend<br>Pin Code Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 7 Pin 8<br>2 Vs GND N/C MISO SCLK SS N/C MOSI<br>N/C : Not Internally Connected<br>**----- End of picture text -----**<br>


Refer to the Part Number Builder application on All Sensors’ website for help with cross reference to alternative suppliers’ part numbers. 

Note: Parylene Coating is not available for pressure ranges below 10 inH2O and 25 mbar or for J-Lead configurations. 

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## How to Order ELVA Series 

For example, **ELVA-M100D-HNNF-C-NBF3** defines an All Sensors ELVA Series Analog Presure Sensor, 100 mbar differential pressure range, HNNF package (SIL with no ports), compensated temperature range from 0°C to 50°C, no parylene coating, Analog Output, 10 to 90% Vsupply transfer function and 3 Vdc supply voltage. 

**==> picture [439 x 171] intentionally omitted <==**

**----- Start of picture text -----**<br>
ELVA - M100D - HNNF - C - N B F 3<br>Product Series<br>ELV Digital and Analog Series<br>Supply Voltage<br>3 3 Vdc<br>Pressure Ranges  [Note 10] Coating 5 5 Vdc<br>N No Parylene<br>Differential Gage Absolute P Parylene Transfer Function<br>M100D  ± 100 mbar M100G 0 to 100 mbar B001A 0 to 1 bar<br>M160D  ± 160 mbar M160G 0 to 160 mbar B002A 0 to 2 bar F 10% to 90% of Vsupply (analog)<br>M250D  ± 250 mbar M250G 0 to 250 mbar Compensated<br>M500D  ± 500 mbar M500G 0 to 500 mbar Temperature<br>B001D  ± 1 bar B001G 0 to 1 bar Range<br>001D ± 1 psi BF25G 0 to 2.5 bar C 0°C to 50°C<br>B005G 0 to 5 bar I -20°C to 85°C<br>B010G 0 to 10 bar Package Pinout Offering Code*<br>001G 0 to 1 psi Output Interface DIP (8 pin) SMT (8 pin) SIL (4 pin)<br>100G 0 to 100 psi B Analog 3 3 4<br>**----- End of picture text -----**<br>


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all sensors<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
Package Selection (4 Character Code)  [Note 10]<br>**----- End of picture text -----**<br>


**==> picture [322 x 230] intentionally omitted <==**

**----- Start of picture text -----**<br>
DIP SMT J-Lead SIL F-Lead<br>HNND  HNNJ  HNNF<br>HAND  HANJ  HANF<br>— — HAAF<br>HKND  HKNJ  HKNF<br>a)<br>HCND  — —<br>*Package Pinout Offering Code Legend<br>Pin Code Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 7 Pin 8<br>3 Vs GND VOUT N/C N/C N/C N/C N/C<br>4 Vs GND VOUT N/C - - - -<br>N/C : Not Internally Connected<br>**----- End of picture text -----**<br>


Refer to the Part Number Builder application on All Sensors’ website for help with cross reference to alternative suppliers’ part numbers. 

Note: Parylene Coating is not available for pressure ranges below 10 inH2O and 25 mbar or for J-Lead configurations. 

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## **Device Options** 

## Parylene Coating: 

Parylene coating provides a moisture barrier and protection from some harsh media. Unlike other pressure sensor suppliers offering a Parylene coating, All Sensors performs this process in-house and uses an advanced production system to achieve the highest accuracy and reliability. This avoids transferring products out of and back to the pressure sensor manufacturing facility, provides complete quality control and improves the delivery time to customers. Specially designed masking techniques allow All Sensors to apply a cost-effective, high-volume Parylene coating in-house. 

Consult factory for applicability of Parylene for the target application and sensor type. 

This option is only available for pressure ranges below ±10 inH2O and 25mbar and is not available for J-lead configurations. 

## Soldering Recommendations: 

- 1) If possible, solder parts as a second operation only. 

- 2) Post reflow and other high temperature processes, wait for 48 hrs before performing any calibration operations. 

- 3) Perform spot cleaning as necessary only by hand. **DO NOT** wash or submerge device in cleaning liquid. 

- 4) Max 270°C lead temperature (manual soldering 2-4 sec.) 

If these devices are to be subjected to solder reflow assembly or other high temperature processing, they must be baked for 1 hour at 125°C within 24 hours prior to exposure. Failure to comply may result in cracking and/or delamination of critcal interfaces within the package, and is not covered by warranty. 

## Evaluation Kit: 

All Sensors offers evaluation kits to help design engineers evaluate potential devices early in the development process. 

For the ELV series, All Sensors offers the EK-02 to allow for easy testing of the sensors. 

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## **I2C Interface for ELVH Series** 

The part enters Free Running  mode (see table 1) after power-up: it performs an initial complete measurement, writes the calculated data to the output registers, sets the INT pin high, then starts the next reading. Note that a “special cycle” occurs every 255 cycles (~120 msec), which adds 400 μsec to the update time for that cycle. 

## **I2C Communications Overview** 

The I2C interface uses a set of signal sequences for communication.  The following is a description of the supported sequences. Refer to Figure 3 for usage. 

**Bus not Busy (I):** During idle periods both data line (SDA) and clock line (SCL) remain HIGH. 

**START condition (ST):** A HIGH to LOW transition of SDA line while the clock (SCL) is HIGH is interpreted as START condition. START conditions are always set by the master. Each initial request for a pressure value has to begin with a START condition. 

Slave address (An): The I2C-bus requires a unique address for each device. After setting a START condition the master sends the address byte containing the 7 bit sensor address followed by a data direction bit (R/W). A "0" indicates a transmission from master to slave (WRITE), a "1" indicates a data request (READ). 

**Acknowledge (A or N):** Data is transferred in units of 8 bits (1 byte) at a time, MSB first. Each data-receiving device, whether master or slave, is required to pull the data line LOW to acknowledge receipt of the data. The Master must generate an extra clock pulse for this purpose. If the receiver does not pull the data line down, a NACK condition exists, and the slave transmitter becomes inactive. The master determines whether to send the last command again or to set the STOP condition, ending the transfer. 

DATA valid (Dn): State of data line represents valid data when, after a START condition, data line is stable for duration of HIGH period of clock signal. Data on line must be changed during LOW period of clock signal. There is one clock pulse per data bit. 

**DATA operation:** The sensor starts to send 4 data bytes containing the current pressure and temperature values. The transmission may be halted by the host after any of the bytes by responding with a NACK. 

**STOP condition (P)** : LOW to HIGH transition of the SDA line while clock (SCL) is HIGH indicates a STOP condition. STOP conditions are always generated by the master. 

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## **I2C Exceptions** 

1.  Sending a Start condition, then a Stop condition, without any transitions on the CLK line, creates a communication error for the next communication, even if the next start condition is correct and the clock pulse is applied. A second Start condition must be set, which clears the error and allows communication to proceed. 

2.  The Restart condition—a falling SDA edge during data transmission when the CLK clock line is still high— creates the same stall/deadlock.  In the following data request, an additional Start condition must be sent for correct communication. 

3.  A falling SDA edge is not allowed between the start condition and the first rising SCL edge. If using an I2C address with the first bit 0, SDA must be held low from the start condition through the first bit. 

## **Figure 3 - I2C Communication Diagram** 

**==> picture [96 x 8] intentionally omitted <==**

**----- Start of picture text -----**<br>
I2C Communications Diagram<br>**----- End of picture text -----**<br>


1.  Read Data ( with examples of reading pressure, pressure plus 8 bits of temperature and pressure plus 11 bits of temperature ) 

**==> picture [390 x 193] intentionally omitted <==**

**----- Start of picture text -----**<br>
Set by bus master: I ST A6 A5 A4 A3 A2 A1 A0 R A<br>Set by sensor ( pressure plus status ): - - - - - - - - - - - A D31 … D24 D23 … D16<br>…then, one of the following:<br>a) Set by bus master, to stop transfer after pressure data received: - - - - - - - - - - - - - N SP I<br>--OR--<br>b) Set by bus master, to stop transfer after first temperature data byte received: - - - - A N SP I<br>Set by sensor ( high order 8 bits of temperature ): - - - - - - - - - - - - - - - - - - - - - - - - D15 … D8<br>--OR--<br>c) Set by bus master, to stop transfer after last temperature data byte received: - - - - A A N SP I<br>Set by sensor ( all 11 bits of temperature plus padding bits ): - - - - - - - - - - - - - - - - D15 … D8 D7 … D0<br>Bus states Sensor Address Data format<br>Idle: I A6 … A0 Status: D31 D30<br>Start: ST Pressure data: D29 … D16<br>Stop: SP Temperature data: D15 … D5<br>Ack: A (padding bits:) D4 … D0<br>Nack: N<br>“Read” bit (1): R<br>“Write” bit (0): W<br>**----- End of picture text -----**<br>


Figure 3 illustrates the sequence of signals set by both the host and the sensor for each command.  Note that for the ReadData command, the host has the option of responding to the second or third bytes of data with a NACK instead of ACK. This terminates the data transmission after the pressure data, or after the pressure data and upper byte of temperature, have been transmitted. See Figure 6 for the I2C timing details. 

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## **SPI Interface for ELVH Series** 

After power-up, the part enters Free Running mode and begins its periodic conversion cycle. The only bus interaction with the host is the SPI DataRead operation.  Polling the sensor at a rate slower than the internal update rate will minimize bus activity and ensure that new values are presented with each transfer. Note that the Status bits should still be checked to verify updated data and the absence of error conditions. 

ELVH sensors using the SPI interface option provide 3 signals for communication: SCLK, SS (Slave Select), and MISO. 

## **SPI Bit Pattern** 

The sequence of bits and bus signals are shown in the following illustration (Figure 4). Refer to Figure 5 in the Interface Timing Diagram section for detailed timing data. As previously described, the incoming data may be terminated by raising SS after 2, 3, or 4 bytes have been received as illustrated below. 

**Figure 4 - SPI Bit Pattern** 

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## **Interface Timing Diagrams for ELVH Series** 

**Figure 5 - SPI Timing Diagram** 

|SCLK<br>MISO<br>SS<br>tSSCLK<br>tCLKD<br>(HI•Z)<br>tCLKD|SCLK<br>MISO<br>SS<br>tSSCLK<br>tCLKD<br>(HI•Z)<br>tCLKD|tHIGH<br>tLOW<br>tSCLK|tHIGH<br>tLOW<br>tSCLK|tCLKSS|tCLKSS|tCLKSS|tCLKSS|(HI•Z)<br>tIDLE|(HI•Z)<br>tIDLE|
|---|---|---|---|---|---|---|---|---|---|
|||tLOW|tHIGH|||||||
|||||||||||
|||||||||||
|PARAMETER|||SYMBOL||MIN|TYP|MAX||UNITS|
|SCLK clock frequency (4MHz clock)|||f<br>SCLK||50|-|800||kHz|
|SCLK clock frequency (1MHz clock)|||f<br>SCLK||50|-|200||kHz|
|SS drop to first clock edge|||tSSCLK||2.5|-|-||µs|
|Minimum SCLK clock low width|||tLOW||0.6|-|-||µs|
|Minimum SCLK clock high width|||tHIGH||0.6|-|-||µs|
|Clock edge to data transition|||tCLKD||0|-|0.1||µs|
|Rise of SS relative to last clock edge|||tCLKSS||0.1|-|-||µs|
|Bus free time between rise and fall of SS|||t<br>IDLE||2|-|-||µs|



**Figure 6 - I2C Timing Diagram** 

|SCL<br>SDA|tH STA<br>tSU DAT<br>tHIGH<br>tSU STA|tH STA<br>tSU DAT<br>tHIGH<br>tSU STA|tH STA<br>tSU DAT<br>tHIGH<br>tSU STA|tH STA<br>tSU DAT<br>tHIGH<br>tSU STA|tLOW|tLOW|tLOW|tLOW|tLOW|
|---|---|---|---|---|---|---|---|---|---|
|||||||||||
|||||||||||
|||||||||||
|PARAMETER||SYMBOL||||MIN|TYP|MAX|UNITS|
|SCL clock frequency||fSCL||||100|-|400|kHz|
|Start condition hold time relative to SCL edge||tHSTA||||0.6|-|-|kHz|
|Minimum SCL clock low width||tLOW||||0.6|-|-|µs|
|Minimum SCL clock high width||tHIGH||||0.6|-|-|µs|
|Start condition setup time relative to SCL edge||tSUSTA||||0.1|-|-|µs|
|Data hold time on SDA relative to SCL edge||tHDAT||||0|-|-|µs|
|Data setup time on SDA relative to SCL edge||tSUDAT||||0.1|-|-|µs|
|Stop condition setup time on SCL||tSUSTP||||0.6|-|-|µs|
|Bus free time between stop condition and start cond<br>.||t<br>IDLE||||2|-|-|µs|



ELV Series - Digital and Analog Pressure Sensor Product Families 

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Page 18 of 34 

## I ’C 2C Interface for ELVI Series Interface for ELVI Series 

## Introductio Introduction n 

The ELVI series sensors provide a digital output signal. The device runs a continuous program, which will store a corrected pressure value every 0.5 ms in the output registers of the internal ASIC. 

According to the I[2] C-bus specification, the bus is controlled by a master device, which generates the clock signal, controls the bus access, and generates START and STOP conditions. These sensors are designed to work as slave devices, and will only respond to requests from a master device. 

## Digital I Digital_[[?C]] 2C InterfaceC Interface[[Interface]] 

## Digital I _[[?C]] 2C InterfaceC Interface[[Interface]] 

These devices comply with the following protocol in Figure 7, and timing as specified in Table 1 and Figure 8. 

- Bus Bus not not bus busy y : : During idle periods, both data line (SDA) and clock line (SCL) remain HIGH. 

- START condition (S) START condition (S) : : HIGH to LOW transition of SDA line while clock (SCL) is HIGH is interpreted as START condition. START conditions are always generated by the master. Each initial request for a pressure value has to begin with a START condition. 

- STOP condition (P) STOP condition (P) : : LOW to HIGH transition of SDA line while clock (SCL) is HIGH determines STOP condition. STOP conditions are always generated by the master. More than one request for the current pressure value can be transmitted without genration of intermediate STOP condition. 

- DATA valid (D) DATA valid (D) : : State of data line represents valid data when, after START condition, data line is stable for duration of HIGH period of clock signal. Data on line must be changed during LOW period of clock signal. There is one clock pulse per bit of data. 

- Acknowledge Acknowledge (A) (A) : : HIGH to LOW transition of SDA line while clock (SCL) is HIGH is interpreted as START condition. START conditions are always generated by the master. Each initial request for a pressure value has to begin with a START condition. 

- Slave address Slave unique address for each device. These sensors have a address : : The I[2] C-bus master-slave concept requires a preconfigured slave address, see the ELVI “How to Order” table on page 11. The sensor will then listen to both this address and 0x78. After generating a START condition the master sends the address byte containing a 7 bit address followed by a data direction bit (R/W). A “0” indicates a trasmission from master to slave (WRITE), a “1” indicates a data request (READ). 

- DATA operation DATA operation : : The sensor sends  2 data bytes containing the current pressure value as a 15 bit value placed in the output registers. 

**==> picture [344 x 166] intentionally omitted <==**

**----- Start of picture text -----**<br>
SCL<br>SDA r\NK| REDXXX XXX 1/4<br>START Data Data allowed STOP<br>condition valid to change condition<br>1<br>S Slave Address R/W A Data Byte 1 A Data Byte 2 A Data Byte 1 P<br>Read out of first pressure value Read out of next pressure values (optional)<br>fA generated by master S = START condition Data Byte 1 = High Byte (MSB first)<br>C generated by slave A = Acknowledge Data Byte 2 = Low Byte (LSB last)<br>P = STOP condition<br>**----- End of picture text -----**<br>


**Figure 7: I²C bus protocol** 

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## **ELVI I[2] C BUS INTERFACE (Cont'd)** 

## **Table 1** 

|**Table 1**|||||||
|---|---|---|---|---|---|---|
|**I2C Interface Parameters**|||||||
|**Parameter**|**Symbol**|**Minimum**|**Nominal**|**Maximum**|**Unit**|**Specification**<br>**Notes**|
|**Input High Level**|-|90|-|100|% of Vs|8|
|**Input Low Level**|-|0|-|10|% of Vs|8|
|**Output Low Level**|-|-|-|10|% of Vs|8|
|**Pull-Up Resistor**|-|500|-|-|Ω|8|
|**Load Capacitance @ SDA**|CSDA|-|-|400|pF|8|
|**Input Capacitance @ SDA/SCL**|CI2C_IN|-|-|10|pF|8|
|**Signal Clock Frequency**|FSCL|100*|-|400|kHZ|8|
|**Bus Free Time Between STOP and START Condition**|tBUF|1.3|-|-|µs|8|
|**Hold Time (Repeated) START Condition, to First Clock Pulse**|tHD.STA|0.8|-|-|µs|8|
|**Low Period of SCL**|tLow|1.3|-|-|µs|8|
|**High Period of SCL**|tHigh|0.6|-|-|µs|8|
|**Setup Time Repeated START Condition**|tSU.STA|1|-|-|µs|8|
|**Data Hold Time**|tHD.DAT|0|-|-|µs|8|
|**Data Setup Time**|tSU.DAT|0.2|-|-|µs|8|
|**Rise Time of Both SDA and SCL**|tR|-|-|0.3|µs|8|
|**Fall Time of Both SDA and SCL**|tF|-|-|0.3|µs|8|
|**Setup Time for STOP Condition**|tSU.STO|0.6|-|-|µs|8|



Note 8: Parameter is characterized and not 100% tested. 

**==> picture [446 x 231] intentionally omitted <==**

**----- Start of picture text -----**<br>
tSU;DAT tHD;DAT tSU;STA tHD;STA tR tF<br>S CL<br>S DA<br>tHIGH tLOW tSU;STO tBUF tHD;STA<br>SCL<br>S DA<br>**----- End of picture text -----**<br>


**Figure 8. Timing Characteristics** 

ELV Series - Digital and Analog Pressure Sensor Product Families 

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Page 20 of 34 

## **SPI - SERIAL PERIPHERAL INTERFACE for ELVE Series** 

## **Introduction** 

The ELVE series sensors present a digital output signal. The device runs a continuous program, which will store a corrected sensor value about every 0.5 ms in the output registers of the internal ASIC. This cyclic program runs independently from the bus communication. 

The SPI protocol specifies four signals: The clock (CLK) is generated by the master and input to all slaves. MOSI carries data from master to slave. MISO carries data from slave back to master. A slave select line (SS) allows individual selection of a slave device. 

Timing requirements for these signals is shown in Table 2 and Figure 11. 

The ELVE series supports clock phase (CPHA)=0 and polarity (CPOL)=0, which means that SCK is low when idle and data is sampled on the rising edge. 

## **Slave Select** 

The falling edge of the SS line indicates the beginning of the transfer. Additionally, the SS line must not be negated and reasserted between the three bytes to be transmitted. 

## **Data Operation** 

The MOSI line should always be set to high level. Because of internal configuration, the slave will answer the first byte with a value of 0xFF. The second and third byte contain the 15 bit pressure information (see Figure 10.) 

## **SPI Modes** 

A pair of parameters called clock polarity (CPOL) and clock phase (CPHA) determine the edges of the clock signal on which the data are driven and sampled. Each of the two parameters has two possible states, which allows for four possible combinations, all of which are incompatible with one another. 

**==> picture [384 x 224] intentionally omitted <==**

**----- Start of picture text -----**<br>
SCK Cycle 1 2 3 4 5 6 7 8<br>a a a<br>SCK<br>(CPOL=0)<br>EE<br>MOSI MSB LSB<br>en enenenenenenenam<br>MISO MSB LSB<br>Gab [epenenenenenene.]<br>SS<br>Sampling<br>Example of a standard 1 byte SPI data transfer for CPHA=0 and CPOL=0<br>Data Byte 1 Data Byte 2 Data Byte 3<br>MOSI 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1<br>MI S O X X X X X X X X X P 1 5 P 1 4 P 1 2 P 1 1 P 1 0 P 9 P 8 P 7 P 6 P 5 P 4 P 3 P 2 P 1 P 0<br>Relev a nt data<br>**----- End of picture text -----**<br>


**Figure 9: Example of a standard 1 byte SPI data transfer for CPHA=0 and CPOL=0** 

**Figure 10: 3 byte data stream between ELVF sensor and master containing the pressure value as a 15 bit value.** 

DS-0376 Rev B 

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## **ELVE SPI - SERIAL PERIPHERAL INTERFACE (Cont'd)** 

## **Table 2** 

## **Interface Parameters** 

|**Table 2**<br>**Interface Parameters**|||||||
|---|---|---|---|---|---|---|
|**Parameter**|**Symbol**|**Minimum**|**Nominal**|**Maximum**|**Unit**|**Specification**<br>**Notes**|
|**Input High Level**|-|90|-|100|% of Vs|8|
|**Input Low Level**|-|0|-|10|% of Vs|8|
|**Output Low Level**|-|-|-|10|% of Vs|8|
|**Pull-Up Resistor**|-|500|-|-|Ω|8|
|**Load Capacitance @ MISO**|CMISO|-|-|400|pF|8|
|**Input Capacitance @ Each Pin**|CSPI_IN|-|-|10|pF|8|
|**Signal Clock Frequency**|fSCK|100|-|640|kHZ|8|
|**MISO Hold Time after SCK Sample Slope**|tSPI_HD_MISO|200|-|-|ns|8|
|**MOSI Setup Time Before SCK Sample Slope**|tSPI_SU_MOSI|2/fCLK|-|-|-|8|
|**/SS Setup Time Before SCK Sample Slope**|tSPI_SU_SS|10|-|-|ns|8|
|**/SS Hold Time After SCK Sample Slope**|tSPI_HD_SS|1/fCLK|-|-|-|8|



Note 8: Parameter is characterized and not 100% tested. 

**Note: All Sensors recommends SPI communication speeds of at least 100 kHz (max. 640 kHz). Please contact your nearest All Sensors sales office for further information.** 

**==> picture [460 x 240] intentionally omitted <==**

**----- Start of picture text -----**<br>
t t<br>S PI_SU_SS S PI_HD_SS<br>t<br>S PI_SU_MOSI<br>t<br>SCK SPI_HD_MISO<br>(CPOL=0)<br>MOSI<br>MIS O<br>S S<br>**----- End of picture text -----**<br>


**Figure 11: Timing characteristics** 

ELV Series - Digital and Analog Pressure Sensor Product Families 

Table of Contents 

Page 22 of 34 

Product Marking and Pin Indicator 

**==> picture [163 x 71] intentionally omitted <==**

**----- Start of picture text -----**<br>
HMF25GCNAA4  Product Marking<br>R20A0101  Lot Number<br>**----- End of picture text -----**<br>


Example Product Marking: HMF25GCNAA4 

**==> picture [273 x 103] intentionally omitted <==**

**----- Start of picture text -----**<br>
H MF25G C N A A 4<br>Product Family: ELVH, ELVI, ELVE, ELVA<br>Pressure Range& Pressure Mode<br>Compensated Temperature Range<br>Coating<br>**----- End of picture text -----**<br>


**==> picture [21 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
Pin 1<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
Pin 1 Indicator<br>**----- End of picture text -----**<br>


**==> picture [36 x 6] intentionally omitted <==**

**----- Start of picture text -----**<br>
Output Interface<br>**----- End of picture text -----**<br>


**==> picture [38 x 5] intentionally omitted <==**

**----- Start of picture text -----**<br>
Transfer Function<br>**----- End of picture text -----**<br>


Supply Voltage 

Pressure Tubing Recommendations 

For the purposes of tubing recommendations, “Low Pressure” is defined as pressure ranges below 15 psi and “High Pressure” is defined as pressure ranges above 15 psi. 

|Suggested Pad Layouts<br>(Finished Size)<br>0.035~0.039 inch<br>0.100<br>(typ.)<br>2.54<br>13.08<br>0.100<br>(typ.)<br>2.54<br>.035~.039 inch<br>(Finished Size)<br>[    0.89~0.99 mm]<br>[    0.89~0.99 mm]<br>SIP & SIL<br>DIP<br>**Low Pressure**<br>**High Pressure**<br>A<br>5/32"<br>1/4"<br>Silicone<br>Polyurethane<br>R<br>1/16"<br>1/8"<br>Silicone<br>Polyurethane<br>C<br>1/8"<br>1/4"<br>Silicone<br>Polyurethane<br>K<br>3/32"<br>5/32"<br>Silicone<br>Polyurethane<br>J<br>1/16"<br>1/8"<br>Silicone<br>Polyurethane<br>N<br>O-ring face seal<br>**Tubing Recommendations**<br>**Material***<br>**Lid Type**<br>**ID**<br>**OD**<br>|<br>[<br>J<br>||Suggested Pad Layouts<br>(Finished Size)<br>0.035~0.039 inch<br>0.100<br>(typ.)<br>2.54<br>13.08<br>0.100<br>(typ.)<br>2.54<br>.035~.039 inch<br>(Finished Size)<br>[    0.89~0.99 mm]<br>[    0.89~0.99 mm]<br>SIP & SIL<br>DIP<br>**Low Pressure**<br>**High Pressure**<br>A<br>5/32"<br>1/4"<br>Silicone<br>Polyurethane<br>R<br>1/16"<br>1/8"<br>Silicone<br>Polyurethane<br>C<br>1/8"<br>1/4"<br>Silicone<br>Polyurethane<br>K<br>3/32"<br>5/32"<br>Silicone<br>Polyurethane<br>J<br>1/16"<br>1/8"<br>Silicone<br>Polyurethane<br>N<br>O-ring face seal<br>**Tubing Recommendations**<br>**Material***<br>**Lid Type**<br>**ID**<br>**OD**<br>|<br>[<br>J<br>||Suggested Pad Layouts<br>(Finished Size)<br>0.035~0.039 inch<br>0.100<br>(typ.)<br>2.54<br>13.08<br>0.100<br>(typ.)<br>2.54<br>.035~.039 inch<br>(Finished Size)<br>[    0.89~0.99 mm]<br>[    0.89~0.99 mm]<br>SIP & SIL<br>DIP<br>**Low Pressure**<br>**High Pressure**<br>A<br>5/32"<br>1/4"<br>Silicone<br>Polyurethane<br>R<br>1/16"<br>1/8"<br>Silicone<br>Polyurethane<br>C<br>1/8"<br>1/4"<br>Silicone<br>Polyurethane<br>K<br>3/32"<br>5/32"<br>Silicone<br>Polyurethane<br>J<br>1/16"<br>1/8"<br>Silicone<br>Polyurethane<br>N<br>O-ring face seal<br>**Tubing Recommendations**<br>**Material***<br>**Lid Type**<br>**ID**<br>**OD**<br>|<br>[<br>J<br>||Suggested Pad Layouts<br>(Finished Size)<br>0.035~0.039 inch<br>0.100<br>(typ.)<br>2.54<br>13.08<br>0.100<br>(typ.)<br>2.54<br>.035~.039 inch<br>(Finished Size)<br>[    0.89~0.99 mm]<br>[    0.89~0.99 mm]<br>SIP & SIL<br>DIP<br>**Low Pressure**<br>**High Pressure**<br>A<br>5/32"<br>1/4"<br>Silicone<br>Polyurethane<br>R<br>1/16"<br>1/8"<br>Silicone<br>Polyurethane<br>C<br>1/8"<br>1/4"<br>Silicone<br>Polyurethane<br>K<br>3/32"<br>5/32"<br>Silicone<br>Polyurethane<br>J<br>1/16"<br>1/8"<br>Silicone<br>Polyurethane<br>N<br>O-ring face seal<br>**Tubing Recommendations**<br>**Material***<br>**Lid Type**<br>**ID**<br>**OD**<br>|<br>[<br>J<br>||Suggested Pad Layouts<br>(Finished Size)<br>0.035~0.039 inch<br>0.100<br>(typ.)<br>2.54<br>13.08<br>0.100<br>(typ.)<br>2.54<br>.035~.039 inch<br>(Finished Size)<br>[    0.89~0.99 mm]<br>[    0.89~0.99 mm]<br>SIP & SIL<br>DIP<br>**Low Pressure**<br>**High Pressure**<br>A<br>5/32"<br>1/4"<br>Silicone<br>Polyurethane<br>R<br>1/16"<br>1/8"<br>Silicone<br>Polyurethane<br>C<br>1/8"<br>1/4"<br>Silicone<br>Polyurethane<br>K<br>3/32"<br>5/32"<br>Silicone<br>Polyurethane<br>J<br>1/16"<br>1/8"<br>Silicone<br>Polyurethane<br>N<br>O-ring face seal<br>**Tubing Recommendations**<br>**Material***<br>**Lid Type**<br>**ID**<br>**OD**<br>|<br>[<br>J<br>||||||0.370<br>9.40<br>0.100<br>(typ.)<br>2.54<br>0.080<br>2.03<br>0.045<br>1.14<br>SMT<br>recommendations, “Low Pressure” is<br>defined as pressure ranges below 15<br>psi and “High Pressure” is defined as<br>pressure ranges above 15 psi.<br>Note: 15 psi absolute is considered<br>low pressure, whereas 15 psi<br>differential and gage are considered<br>high pressure.<br>_|
|---|---|---|---|---|---|---|---|---|---|
|||||0.515||||||
|||||||||||
||**PAD-01**|||**PAD-31**|||||**PAD-32**|
|All Sensors||||DS-0376 Rev B||||||



Note: 15 psi absolute is considered low pressure, whereas 15 psi differential and gage are considered high pressure. 

Table of Contents 

Page 23 of 34 

## **Dimensional Drawings - DIP Packages** 

**==> picture [482 x 572] intentionally omitted <==**

**----- Start of picture text -----**<br>
ee Package Dimensions<br>DIP NN:  No Port (Flat) (1 9.9<br>.390<br>(1 0.3<br>.012<br>2.91.114 8 7 6 5 [1 0.64 6.24.246<br>12.8.504 coon ° .025 6.99.275 13.3.524 |<br>ay B PortHigh Pressure 1 2 3 4 flo 1.14.045 3.44.135 4] t 0.25<br>2.54 .010<br>.100<br>7.62<br>.300<br>9.3<br>A PortLow Pressure 0.64.025 .366<br>i [ 1<br>5.59 Notes:<br>HNND  9.31.367 .220 1) Dimensions are in inches [mm].<br>Pa ck a ge  to 2) Pad Layout: PAD-31.<br>qe) 0.46.018<br>DIP AN:  Barbed Top  [J 9.9<br>Port Gage [ 2.91.114 [J .0120.3 + 8 7 .390 6 | 5 4 4.93.194 b 3.5.138 } td 6.24.246<br>6.4<br>4] .252 como ° |<br>6.99 13.3<br>12.8.504 1.5.059 .275 .524<br>S 1° Gano 1 m= 2 3 4 Ley 1.14.045 0) 3.44.135 - L 0.25 J<br>2.54 .010<br>B PortHigh Pressure 7.62 .100<br>.300<br>9.3<br>.366<br>11.39<br>.448<br>A Port<br>i Low Pressure of 0.64.025 EEE 3.44 8.39.330<br>HAND  oy) 5.59 TRL .135 Notes:<br>Pa ck a ge  9.31.367 .220 1) Dimensions are in inches [mm].<br>Lt o i 2) Pad Layout: PAD-31.<br>per 0.46.018<br>DIP RN:  Barbed Side<br>{J 9.9<br>Port Gage {J .2446.2 8 7 .390 6 5<br>9.9<br>13.3 6.99 .390 12.8<br>.524 .275 8.4 .504<br>py Bhi ia .331 oe tC]<br>4d RH ————.<br>1.57 1 2 3 4<br>[ 0.25.010 ] .0622.76 1.14.045<br>.109 2.54<br>.100<br>- 7.62<br>.300<br>_ 1.38<br>.054<br>1.53<br>.060 9.3<br>oS B PortHigh Pressure a L in .366 0.64.025<br>1.93<br>A Port .076 6.22<br>HRND  Low Pressure 2.93.115 .245 9.95.392 Notes:<br>Pa ck a ge  1) Dimensions are in inches [mm].<br>Jeo 0.46.018 2) Pad Layout: PAD-31.<br>**----- End of picture text -----**<br>


* Refer to How to Order Tables for pinouts 

ELV Series - Digital and Analog Pressure Sensor Product Families 

Table of Contents 

Page 24 of 34 

## **Dimensional Drawings - DIP Packages (Cont'd)** 

**==> picture [476 x 576] intentionally omitted <==**

**----- Start of picture text -----**<br>
Package Dimensions<br>DIP RR:  Barbed Side<br>Port Differential 4) 9.9<br>6.16 .390<br>Dae .242 8 7 6 5<br>13.3 ae 4 ES 6.99 ceeo ronOTee .3909.9 12.8<br>.524 .157 .275 8.4 .504<br>ae ee7 Quji 1.57 1 .331 [ooo] S 1 2 e 3 4 [a] |<br>ss — th an 0.25.010 ) .0622.76 Le 1.14.045<br>.109 2.54<br>.100<br>7.62<br>.300<br>1.38<br>GPsSs a @B (1) .054<br>1.53<br>KoRee A PortLow Pressure1.93 (| .060 C | (4e .3669.3 0.64.025<br>HRRD  B PortHigh Pressure .076 2.93.115 6.22.245 9.95.392 Notes:1) Dimensions are in inches [mm].<br>Pa ck a ge  2) Pad Layout: PAD-31.<br>Jen 0.46.018<br>DIP DR:  Barbed<br>C1 9.9<br>Opposite Side Port  0.3 .390<br>Differential a 2.91.114 .012 8 7 6 5 C4] 6.16.242<br>4.4<br>.173<br>an 12.8.504 ooo 6.99.275 1 13.3.524<br>> oe | ° | oS Toy Alleu a<br>A Port<br>Low Pressure<br>1 2 3 4 1.14 2.76<br>| . we 6) .1734.4 Lil[ 2.54.100.045 ot .109 4 Cy 0.25.010<br>B PortHigh Pressure 7.62.300<br>15.76 1.53<br>hese .620 @ .060<br>9.3 1.93<br>0.64 .366 .076<br>i! [J .025 i (1) ®L |<br>he WO<br>HDRD  an 9.95 pee 6.22.245 pee 3.78 Notes:<br>Pa ck a ge  .392 .149 1) Dimensions are in inches [mm].<br>[4] 1.38<br>| \ .054 a 2) Pad Layout: PAD-31.<br>den 0.46.018<br>DIP CN:  Barbed Top  [] .3909.9<br>Port [ 2.91.114 7 .0120.3 8 aa 7 6 | 5 OL) 3.4 b! 2.7.106 Col 6.24.246<br>.134<br>pj .2526.4 4 Cooees 3<br>6.99 13.3<br>12.8 .275 .524<br>.504 1.5<br>ae .059 LS) +<br>Aa Ne B PortHigh Pressure {haga 1 2 3 4 an 2.54.100 Cf) 1.14.045 4] .1102.8 4 tJ 0.25.010<br>7.62<br>.300<br>9.3<br>.366<br>12.94<br>A PortLow Pressure 6.1.240 9.94 .509<br>.391<br>| a 0.64.025 4 }oortH 3.44.135 4.23.166 tJale<br>HCND  9.95 7 6.22.245 Pee Notes:<br>Pa ck a ge  .392 1) Dimensions are in inches [mm].<br>roi 2) Pad Layout: PAD-31.<br>fai 0.46.018<br>**----- End of picture text -----**<br>


* Refer to How to Order Tables for pinouts 

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**----- Start of picture text -----**<br>
all sensors<br> www.allsensors.com<br>e<br> 408 225 2079<br>f<br> 408 225 4314<br>p<br> 16035 Vineyard Blvd. Morgan Hill, CA 95037<br>a<br>**----- End of picture text -----**<br>


All Sensors 

DS-0376 Rev B 

Table of Contents 

Page 25 of 34 

## **Dimensional Drawings - DIP Packages (Cont'd)** 

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a Package Dimensions<br>DIP KN:  Non Barbed  t] 9.9<br>.390<br>Needle Top Port [ 2.91.114 7 .012  + 0.3 8 7 6 | 5 2.8 $ 6.1.240 } { 6.24.246 ]<br>.110<br>6.4<br>.252<br>6.99 13.3<br>12.8 .275 .524<br>.504 1.5<br>.059<br>B PortHigh Pressure Bong 1 2 3 4 2.54.1001.14.045 .1102.8 0.25.010 | |<br>7.62<br>.300<br>9.3<br>.366<br>13.64<br>A Port .537<br>Low Pressure<br>ret] 0.64.025 LA — 3.44.135 4.22.166 () 8.14.320<br>9.95 6.22.245 Notes:<br>an .392 THEE<br>HKND  1) Dimensions are in inches [mm].<br>Poy<br>Pa ck a ge  0.46 2) Pad Layout: PAD-31.<br>dos .018<br>DIP JN:  Non Barbed<br>Tapered Side Port .3909.9<br>8 o 7 6 -_ 5 {] .2446.2<br>9.9<br>8.4 .390 12.8.504 13.3.524 6.99.275 8.4<br>.331 .331<br>1 2 3 4 1.14.045 0.25.010 2.761.57.062<br>2.54 .109<br>.100<br>{ 7.62 ]<br>.300<br>On. L Hi [J _<br>2.3.091 .366[9.3]<br>B Port 0.64<br>High Pressure .025<br>6.22<br>HJND  i y A PortLow Pressure O ; 6.71.264 PLLA ‘1 .245 ne 9.95.392 Notes:1) Dimensions are in inches [mm].<br>Pa ck a ge<br>We<br>2) Pad Layout: PAD-31.<br>0.46<br>Joo .018<br>DIP JJ:  Non Barbed  [1] 9.9 [6.2]<br>Tapered Side Port 8 7 .390 6 5 .2443.78<br>.149<br>—_ 9.9<br>ma .390 12.8 H<br>t) .3318.4 .504 13.3.524 [6.99].275 .1574 ike<br>1 2 3 4 1.14<br>.045<br>1.57<br>[ 7.62.300 be 2.54.100 el 0.25.010 .0622.76.109<br>i £05 [9.3]<br>7 is A PortLow Pressure J .366 0.64.025 [ J<br>6.22<br>HJJD  H B PortHigh Pressure Ney{ 6.71.264 ] .245 9.95.392 Notes:1) Dimensions are in inches [mm].<br>Pa ck a ge  jo 0.46.018 2) Pad Layout: PAD-31.<br>**----- End of picture text -----**<br>


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## **Dimensional Drawings - SMT Packages** 

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Package Dimensions<br>SMT NN:  No Port (Flat)<br>[1] 9.9<br>.390<br>(1 0.3<br>.012<br>ti] 2.91.114 8 7 6 5 a 0.64 {] 6.24.246<br>——— o .025<br>Cnonono<br>ao _ 13.3<br>[] 12.8.504 ; [ 6.99.275 11.92 .524<br>a 1 .469<br>1 2 3 4 1.14 2.8<br>B PortHigh Pressure Lt 2.54.045 ] {] .110 [1 0.25.010<br>fl Pe, 7.62 .100<br>NSS 1 ZA] .300<br>9.3<br>HNNJ Pa ck a ge  ig A PortLow Pressure 4.73.186 tJ 0.64.025 | .366 i Notes:1) Dimensions are in inches [mm].<br>C1 TP RFLFLT<br>2) Pad Layout: PAD-32.<br>1.27 0.46<br>[J .050 L JLo .018 3<br>SMT AN:  Barbed Top  [] 9.9<br>Port Gage [1 0.3 .390 db” 3.5.138<br>to] 2.91.114 .012 8 7 6 5 a 4.93 Co] 6.24.246<br>Sac oO .194<br>.2526.4 6.99 13.3.524<br>C1) 12.8.504 1.5.059 ES | .275 _ 11.92.469<br>1 2 3 4 1.14 2.8<br>.045 .110 0.25<br>¢ B Port [4 2.54 .010<br>High Pressure .100<br>7.62<br>.300<br>9.3<br>.366<br>11.39<br>ies A Port / \ on .448<br>HANJ  Low Pressure 8.39<br>Pa ck a ge  bi 0.64.025 | |_| fy 3.44 fl} .330 Notes:<br>+ .135<br>4.73 a | 1) Dimensions are in inches [mm].<br>.186 2) Pad Layout: PAD-32.<br>1.27 0.46<br>Cijh .050 ber .018<br>SMT RN:  Barbed Side<br>[ 9.9 ]<br>Port Gage 6.2 .390<br>.244<br>ian 8 7 6 5<br>J 13.3.524 7alc 6.99 ac e aa .3909.9 12.8<br>aR 11.92.469 .275 .3318.4 E e a .504<br>{[ 1.57 ] 1 2 3 4 1.14<br>0.25 .062 .045<br>.010 [J 2.76.109 7.62 { 2.54.100 J<br>7 1.38 L .300 a<br>B. - .054 []<br>1.53 9.3<br>B PortHigh Pressure .060 .366 0.64.025<br>HRNJ Pa ck a ge  A PortLow Pressure 1.93.076 4.73.186 Notes:<br>2.93<br>.115 1.27 1) Dimensions are in inches [mm].<br>{[ 0.46.050 ] 2) Pad Layout: PAD-32.<br>[| + .018 a<br>all sensors<br> www.allsensors.com<br>e<br> 408 225 2079<br>f<br> 408 225 4314<br>p<br> 16035 Vineyard Blvd. Morgan Hill, CA 95037<br>a<br>**----- End of picture text -----**<br>


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All Sensors<br>**----- End of picture text -----**<br>


DS-0376 Rev B 

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## **Dimensional Drawings - SMT Packages (Cont'd)** 

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Package Dimensions<br>SMT RR:  Barbed Side  B Port<br>Port Differential High Pressure<br>[ 6.16.242 ] (J .3909.9<br>3.78<br>.149 8 7 6 5<br>a) rf i 7]<br>“\ TTT C] 13.3.524 4 Sho 6.99 e e ee .3909.9 12.8<br>A PortLow Pressure 7 a 11.92.469  7 .157 leQs .275 (1 .331 { 8.4 = ot © [J .504<br>1 2 3 4<br>1.57 1.14<br>0.25 .062 .045<br>ae ~y .010 {] 2.76.109 { 7.62 ] [ 2.54.100 ]<br>a 1.38 .300<br>.054<br>{ 1.53 ][ 9.3 ]<br>® .060 .366<br>[ 0.64<br>.025<br>Notes:<br>HRRJ<br>Pa ck a ge  5 1.93.076 Se gl glgls eee 4.73.186 1) Dimensions are in inches [mm].<br>2) Pad Layout: PAD-32.<br>2.93<br>cl .115 do 1.27<br>SMT DR:  Barbed  {J 9.9<br>.390<br>Opposite Side Port Differential [ 2.91.114 { .0120.3 ] 8 7 6 5 [ 6.16.242 ]<br>4.4<br>.173 13.3<br>12.8.504 © 6.99.275 11.92 .524<br>.469<br>A Port<br>Low Pressure 1 2 3 4 1.14 2.76<br>oe { .1734.4 J Lol{ 2.54.100.045 J 64 .109 [ 0.25.010 ]<br>7.62<br>B Port .300<br>High Pressure 15.76 1.53<br>.620 .060<br>UR (1 9.3 Pd 1.93<br>0.64 .366 .076<br>.025<br>4.83 poo Notes:<br>HDRJ  .190<br>Pa ck a ge  A || | U1 3.78.149 1) Dimensions are in inches [mm].<br>l 1.27.050 if 0.46.018 [ 1.38.054 2) Pad Layout: PAD-32.<br>SMT KN:  Non Barbed<br>{] 9.9<br>Needle Top Port 0.3 .390 6.1<br>2.91 ] .012 % .240 [1] 6.24<br>[ .114 [ ft 8 7 6 | 5 2.8 { ] .246<br>.110<br>.2526.4 6.99 13.3.524<br>12.8 .275 11.92<br>.504 @| 1.5 COL .469<br>.059<br>1 2 3 4 Lt 1.14.045 l 44 .1102.8 { 0.25 ]<br>E= B PortHigh Pressure | boo [ 2.54.100 J° it». .010<br>7.62<br>.300<br>9.3<br>.366<br>13.64<br>i KerNi a|_| to] .537<br>A PortLow Pressure 8.14 Notes:<br>0.64 .320<br>HKNJ Pa ck a ge  4.73 i (4 .025 [eeL\ pi! 3.44.135 get 4.22.166 | 1) Dimensions are in inches [mm].2) Pad Layout: PAD-32.<br>.186<br>* Refer to How to Order Tables for pinouts { 1.27.050 ] ae { 0.46.018 ]<br>**----- End of picture text -----**<br>


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## **Dimensional Drawings - SMT Packages (Cont'd)** 

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Package Dimensions<br>SMT JN:  Non Barbed  9.9<br>Tapered Side Port .390<br>8 i 7 (1 6 | 5 [] .2446.2<br>9.9 13.3<br>[ .3318.4 | rsa T . ee°aeee) .390 to] 12.8.504 t] .524 11.92.469 ty 6.99.275 aMa| (6)<br>1.57 | [feo] 1 | 2 3 4 1.14 | to] 0.25 afi)[| | 1.57.062<br>.062 } Le .045 ] a .010 _ 2.76<br>2.76 2.54 .109<br>.109 .100<br>7.62<br>} L .300 [4]<br>2.3<br>.091 [9.3]<br>WN [Zp] > B PortHigh Pressure o(1 .366 0.64.025<br>4.73<br>HJNJ  DWNON A Port BAAATCM C1 .186 Notes:<br>Pa ck a ge  Low Pressure 6.71.264 [ 0.461.27.050 1) Dimensions are in inches [mm].2) Pad Layout: PAD-32.<br>[ me .018<br>SMT JJ:  Non Barbed<br>Tapered Side Port Ui .3909.9 [ 6.16.242 ]<br>8 7 6 5 3.78.149<br>.3318.4 .3909.9 12.8.504 13.3.524 11.92.469 .1574 [6.99].275 .3318.4<br>1 2 3 4<br>[ 1.14 _ 1.57<br>.045 0.25 .062<br>[1 2.54 [ .010 a 2.76<br>.100 .109<br>B Port an 7.62.300<br>High Pressure<br>2.3.091 .366[9.3] 0.64<br>.025<br>—_—— t<br>° L et<br>\ eee | 4.73<br>HJJJ  TU PpRAAT .186 Notes:<br>Pa ck a ge  A PortLow Pressure Ras 6.71.264 ee 1.27.050 1) Dimensions are in inches [mm].<br>[ 0.46 2) Pad Layout: PAD-32.<br>.018<br>**----- End of picture text -----**<br>


* Refer to How to Order Tables for pinouts 

DS-0376 Rev B 

All Sensors 

Table of Contents 

Page 29 of 34 

## **Dimensional Drawings - SIP H-Lead Packages** 

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ee Package Dimensions<br>SIP H-Lead NN:  No Port<br>(Flat) { .3909.9 ] [J 6.24<br>.246<br>{ 0.3 ] [ 9.3 ] [ 2.8 ] { 0.64 ]<br>.012 .366 .110 .025<br>0.64<br>2.96 .025<br>6.99<br>10.5 .116 ° .275<br>B Port | .413 [ [ @ 1.1 | J,<br>High Pressure .043<br>1 2 3 4<br>10.17 1.36<br>.400 .054<br>1.14 0.25<br>A Port 0.51 .045 .010<br>Low Pressure .020 | 2.54<br>HNNH  .100<br>{ 7.62 J Notes:<br>Pa ck a ge  .300 1) Dimensions are in inches [mm].<br>2) Pad Layout: PAD-1.<br>SIP H-Lead AN:  Barbed  { .3909.9 ] tt 6.24.246<br>Top Port Gage { .0120.3 ] { .3669.3 J { .1102.8 ] { 0.64.025 ]<br>2.96 1.5<br>[ .116 a §) .059 6.99<br>10.5 .275<br>CY, .413 6.45.254 +O] 1 (LeeLlal 2 3 4 | [J .0431.1 7<br>10.17.400 1.36.054<br>B Port<br>High Pressure<br>1.14 0.25<br>~ ee 0.51.020 ffee .045 (1. .010<br>eo [1 2.54.100 tJ<br>7.62<br>.300<br>4.93<br>A PortLow Pressure 3.5 .194 11.39.448<br>HANH  .138 8.39.330 Notes:<br>Pa ck a ge<br>1) Dimensions are in inches [mm].<br>|~— a 2) Pad Layout: PAD-1.<br>SIP H-Lead AA:  Top Port DifferentialBarbed  0.3 .3909.99.3 2.8 6.24.246 0.64<br>.012 .366 .110 .025<br>2.96 1.5<br>.116 .059<br>10.5<br>.413 6.45 1.1<br>.254 .043<br>6.99<br>1 2 3 4 .275<br>fan 10.17.400 Hee 1.36.054 -<br>lle<br>0.51.020 2.541.14.045 0.25.010<br>B Port .100<br>High Pressure 7.62<br>a fics .300<br>f w [ 4.93 ]<br>i YB [i,] 3.5 ® .194 / \ ty 11.39.448<br>.138 8.39<br>.330<br>HAAH  A PortLow Pressure Notes:<br>Pa ck a ge  22.14.872 1) Dimensions are in inches [mm].<br>2) Pad Layout: PAD-1.<br>**----- End of picture text -----**<br>


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Page 30 of 34 

## **Dimensional Drawings - SIP H-Lead Packages (Cont'd)** 

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Package Dimensions<br>SIP H-Lead RN:  Barbed<br>{] 6.2<br>Side Port Gage .244 [J 2.76 { .3909.9 ]<br>1.57 .109<br>.062<br>[ 6.99 ] oti ce C«*Y 10.5<br>.275 8.45 9.95 .413<br>rl ee .333 e e .392<br>1 2 3 4<br>1.1<br>10.17 .043<br>.400<br>1.36<br>.054<br>THE<br>ee B PortHigh Pressure +0} 0.25.010 Lt 0.51.020 2.54 [ [1] 1.14.045 ]<br>.100<br>7.62<br>1.38 .300<br>|=1 1.53 [| .054 ' He |<br>.060 0.64<br>.025<br>HRNH  Notes:<br>Pa ck a ge  ‘ 1.93.076 1) Dimensions are in inches [mm].<br>A PortLow Pressure [ 2.93.115 fiannim 2) Pad Layout: PAD-1.<br>SIP H-Lead RR:  Barbed<br>Side Port Differential [ 6.16.242 ] 9.9<br>2.76 .390<br>[ 1.57 ] .109<br>.062<br>4 6.99 10.5<br>.157 ere .275 8.45 r oy . | 9.95 (1) .413<br>.333 .392<br>3.78 1 2 3 4<br>.149 1.1<br>10.17 .043<br>.400<br>1.36<br>.054<br>~ 0.25.010 0.51 1.14.045<br>.020<br>»{ 2.54.100 ]<br>7.62<br>1.38 .300<br>.054<br>1.53 9.3<br>A Port .060 .366 0.64<br>HRRH  NNWA“ Low Pressure Lo r 7 7 .025 Notes:<br>Pa ck a ge  1.93.076 1) Dimensions are in inches [mm].<br>B PortHigh Pressure ° 2 93 a ot 2) Pad Layout: PAD-1.<br>SIP H-Lead DR:  Barbed<br>{ 6.16 ]<br>Opposite Side Port Differential {J .3909.9 [J 2.21.087 .242<br>0.3 9.3 2.76 0.64<br>.012 .366 .109 .025<br>[ ] ——[ ] [J '| | { ]<br>_ 2.96<br>.116 6.99<br>.275<br>10.5<br>.413 4.45<br>.175<br>1 2 3 4 { 1.1 ] i<br>.043<br>10.17<br>.400 1.36<br>.054<br>® B PortHigh Pressure {1(ij. 0.51.020 iani j- _ 2.54 { 1.14.045 ] (1 0.25.010<br>.100<br>7.62<br>.300<br>12.83 1.93<br>HDRH  A PortLow Pressure .505 .076 Notes:<br>Pa ck a ge  3.78.149 1) Dimensions are in inches [mm].<br>P e 1.38 2) Pad Layout: PAD-1.<br>* Refer to How to Order Tables for pinouts .054<br>All Sensors  DS-0376 Rev B<br>**----- End of picture text -----**<br>


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## **Dimensional Drawings - SIP H-Lead Packages (Cont'd)** 

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Package Dimensions<br>SIP H-Lead JN:  Non  9.9<br>[] .390 [ 6.2 ]<br>Barbed Tapered Side  .244<br>Port 2.76<br>.109<br>10.5 1.57<br>8.45 9.95 .413 .062<br>T .333  T e | Ao .392 [ ] -<br>1 2 3 4 1.1 6.99.275<br>10.17 .043<br>.400<br>1.36<br>.054<br>0.51.020 2.541.14.045<br>.100<br>B Port 7.62<br>High Pressure [ +t .300 ae : } |<br>. ||<br>OS { ] 2.3.091 .366[9.3] 0.64 0.25.010<br>.025<br>Notes:<br>HJNH<br>Pa ck a ge  < { 6.71 ] 1) Dimensions are in inches [mm].<br>.264<br>A Port 2) Pad Layout: PAD-1.<br>Low Pressure<br>SIP H-Lead JJ:  Non<br>Barbed Tapered Side  1] .3909.9 [J 6.16.242<br>Port t 2.76<br><7 [ 1.57 ] .109<br>10.5 .062<br>8.45 9.95 .413<br>.333 .392 4 [6.99]<br>.157 .275<br>1 2 3 4<br>1.1<br>10.17 .043<br>.400<br>1.36.054 3.78.149<br>1.14<br>7s 0.51 ||| .045 Sa<br>.020<br>2.54<br>B PortHigh Pressure [ + 7.62.300 om .100 : ] | 0.25.010<br>A Port<br>Low Pressure<br>2.3.091 .366[9.3- 0.64<br>HJJH  oN ( o L [4] .025 | Notes: ]<br>Pa ck a ge  1) Dimensions are in inches [mm].<br>— { 6.71 J 2) Pad Layout: PAD-1.<br>.264<br>**----- End of picture text -----**<br>


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Page 32 of 34 

## **Dimensional Drawings - SIL F-Lead Packages** 

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ee Package Dimensions<br>SIL F-Lead NN:  No Port<br>(Flat)<br>9.9<br>t .390 ] [4 6.24<br>B Port .246<br>High Pressure [ .0120.3 ] {] .3669.3 { .1102.8 ] { 0.64.025 ]<br>0.64<br>2.96 .025<br>.116 6.99<br>10.5 .275<br>.413 1<br>.039<br>q 1 2 3 4<br>A Port 1.72<br>Low Pressure a 1.27 [J .068<br>.050<br>to] 15.12<br>.595<br>[J 1.14<br>| t 2.54.045 ]<br>0.46 .100 0.25<br>HNNF  [ .018 iL, 7.62 ] C1 .010<br>.300 Notes:<br>Pa ck a ge<br>1) Dimensions are in inches [mm].<br>2) Pad Layout: PAD-1.<br>SIL F-Lead AN:  Barbed  { 9.9 ] { 6.24 ]<br>Top Port Gage {J .0120.3 .390 { .3669.3 ] { .1102.8 ] .246 { 0.64.025 ]<br>2.96 1.5<br>.116 .059 6.99<br>10.5 .275<br>.413 6.45.254 attele .0391<br>B PortHigh Pressure 1 2 3 4 1.27.050 1.72.068<br>(\ 15.12 ae [4 [ J<br>w { .595 J<br>0.46 1.14<br>E> to] .018 CJ .045<br>2.54<br>.100 0.25<br>7.62 .010<br>Aas A Port [4] .300 Cf<br>Low Pressure<br>4.93<br>{ .194 ] / \ 11.39 i<br>HANF  3.5.138 8.39 .448<br>.330 Notes:<br>Pa ck a ge<br>1) Dimensions are in inches [mm].<br>aeal 2) Pad Layout: PAD-1.<br>Ct] 9.9<br>SIL F-Lead AA:  Barbed  [] 0.3 .390 {] 9.3 [1] 2.8 T 6.24.246 4 [ 0.64 ]<br>Top Port Differential .012 .366 .110 .025<br>2.96.116 1.5.059<br>10.5<br>.413 i" 6.45.254 ]tJ cA[a4 §} .039 ia] 1<br>6.99<br>1 2 3 4 .275<br>[ 1.27 ]<br>.050<br>ar 15.12<br>.595<br>B Port<br>High Pressure 1.14 0.25<br>(\ [4] 0.46 { .045 ] [ .010 ]<br>.018 2.54<br>.100<br>7.62<br>£ tJ .300 -<br>4.93<br>A Port .194 11.39<br>Low Pressure 3.5 .448<br>ZF 1 .138 aan 8.39.330 ]<br>re 22.14<br>HAAF  .872<br>Notes:<br>Pa ck a ge  Td {  ] 1) Dimensions are in inches [mm].<br>\_/ |<br>2) Pad Layout: PAD-1.<br>all sensors<br> www.allsensors.com<br>e<br> 408 225 2079<br>f<br> 408 225 4314<br>p<br> 16035 Vineyard Blvd. Morgan Hill, CA 95037<br>a<br>**----- End of picture text -----**<br>


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Page 33 of 34 

## **Dimensional Drawings - SIL F-Lead Packages (Cont'd)** 

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**----- Start of picture text -----**<br>
ee Package Dimensions<br>SIL F-Lead KN:  Non<br>Barbed Needle Top Port .0120.3 .3909.9 2.8.1106.1.240 .1102.8 6.24.246 0.64.025<br>1.5<br>2.96 .059<br>.116 6.99<br>10.5 .275<br>.413 6.45 1<br>.254 1 atatelg 2 3 4 am .039 1.72<br>1.27 .068<br>.050<br>15.12<br>.595<br>0.46 1.14<br>.018 .045<br>| 7 : {+o 2.54 “y<br>B Port .100 0.25<br>High Pressure 7.62 .010<br>9.3 .300<br>.366<br>13.64<br>.537 Notes:<br>HKNF  8.24.324 1) Dimensions are in inches [mm].<br>Pa ck a ge  3.44 4.22<br>A Port .135 .166 2) Pad Layout: PAD-1.<br>Low Pressure<br>Ud<br>* Refer to How to Order Tables for pinouts<br>**----- End of picture text -----**<br>


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