BS EN IEC 63041-1:2021 – TC:2022 Edition
$217.84
Tracked Changes. Piezoelectric sensors – Generic specifications
| Published By | Publication Date | Number of Pages |
| BSI | 2022 | 78 |
This part of IEC 63041 applies to piezoelectric sensors of resonator, delay-line and non acoustic types, which are used in physical and engineering sciences, chemistry and biochemistry, medical and environmental sciences, etc. The purpose of this document is to specify the terms and definitions for the piezoelectric sensors, and to make sure from a technological perspective that users understand the state-of-art piezoelectric sensors and how to use them correctly.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | 30451713 |
| 43 | A-30405240 |
| 44 | undefined |
| 46 | European foreword Endorsement notice |
| 47 | Annex ZA (normative) Normative references to international publications with their corresponding European publications |
| 49 | English CONTENTS |
| 52 | FOREWORD |
| 54 | 1 Scope 2 Normative references 3 Terms and definitions |
| 55 | 3.1 Piezoelectric sensors |
| 56 | 3.2 Types of chemical sensors 3.3 Types of physical sensors |
| 57 | 3.4 Types of sensor modules 3.5 Types of sensor systems 4 Symbols of sensor elements 4.1 General 4.2 Symbol for sensor elements of BAW resonator type |
| 58 | 4.3 Symbol for sensor elements of SAW resonator type 4.4 Symbol for sensor elements of SAW delay-line type Figures Figure 1 – Conceptual diagrams for sensor elements of BAW resonator type Figure 2 – Symbol for sensor elements of BAW resonator type Figure 3 – Conceptual diagram of sensor elements of SAW resonator type Figure 4 – Symbol for sensor elements of SAW resonator type |
| 59 | 4.5 Symbol for sensor elements of non-acoustic type 4.6 Symbol for wireless SAW sensor element Figure 5 – Conceptual diagram for sensor elements of SAW delay-line type Figure 6 – Symbol for sensor elements of SAW delay-line type Figure 7 – Conceptual diagrams for sensor elements of non-acoustic type Figure 8 – Symbol for sensor elements of non-acoustic type |
| 60 | Figure 9 – Conceptual diagram for basic sensor elements of wireless SAW resonator type Figure 10 – Symbol for basic sensor elements of wireless SAW resonator type Figure 11 – Conceptual diagram for basic sensor elements of wireless SAW reflective delay-line type Figure 12 – Symbol for basic sensor elements of wireless SAW reflective delay‑line type |
| 61 | 4.7 Symbols 5 Specifications 5.1 Sensor elements 5.1.1 General 5.1.2 Sensor elements of resonator and delay-line types |
| 62 | 5.1.3 Sensor elements of non-acoustic type 5.2 Frequency ranges 5.3 Level of drive or input power 5.4 Unwanted response 5.5 Analysis of measurements |
| 63 | 5.6 Enclosure 5.7 Performance confirmation 5.8 Long-term and short-term stabilities 5.9 Transmission power 6 Measurement and detection methods 7 Delivery conditions 7.1 Marking 7.2 Wrapping |
| 64 | 7.3 Packaging 8 Quality and reliability 8.1 Reuse 8.2 Validity of release 8.3 Test procedures 8.4 Screening requirements 8.5 Unchecked parameters 9 Test and measurement procedures 9.1 General 9.1.1 Test classification 9.1.2 Shipping test |
| 65 | 9.1.3 Mechanical and environmental test 9.2 Test and measurement conditions 9.2.1 Standard conditions for testing 9.2.2 Equilibrium state 9.2.3 Power supply |
| 66 | 9.2.4 Alternative test system 9.2.5 Visual inspection 9.3 Test conditions for shipment 9.3.1 Temperature dependence of frequency, phase, insertion loss/gain, motional resistance, and electric charge / voltage 9.3.2 Unwanted response 9.3.3 Shunt capacitance |
| 67 | 9.3.4 Insulation resistance |
| 68 | Annex A (normative) Measurement methods A.1 General A.2 Measurement methods using reflection and transmission characteristics Figure A.1 – Measurement method using reflection characteristics of BAW resonator type sensor elements and cells Figure A.2 – Measurement method using reflection characteristics of SAW resonator type sensor elements and cells |
| 69 | A.3 Measurement methods using oscillation circuits Figure A.3 – Measurement method using transmission characteristics of SAW delay-line type sensor elements and cells Figure A.4 – Measurement method using oscillation circuit consisting of BAW resonator type sensor elements and cells Figure A.5 – Measurement method using oscillation circuit consisting of SAW resonator type sensor elements and cells |
| 70 | A.4 Measurement method of non-acoustic type sensor elements and cells A.5 Other measurement methods Figure A.6 – Measurement method using oscillation circuit consisting of SAW delay-line type sensor elements and cells Figure A.7 – Measurement method using amplifier consisting ofnon-acoustic type sensor elements and cells |
| 71 | Annex B (normative) Detection methods B.1 General B.2 Detection methods B.2.1 Frequency difference measurement Figure B.1 – Measurement of frequency difference using two oscillation circuits |
| 72 | B.2.2 Insertion loss/gain measurement Figure B.2 – Measurement of frequency difference using an oscillation circuitand frequency synthesizer Figure B.3 – Conceptual diagram of piezoelectric dual mode sensor module |
| 73 | B.2.3 Phase difference measurement B.2.4 Other detection methods Figure B.4 – Measurement of insertion loss/gain difference using two oscillation circuits Figure B.5 – Measurement of phase difference using signal generator and phase detector |
| 74 | Annex C (normative) Wireless SAW sensor C.1 General C.2 Detection methods C.2.1 General C.2.2 Conceptual diagrams of wireless SAW resonator type sensor system C.2.3 Conceptual diagrams of wireless SAW reflective delay-line type sensor system Figure C.1 – Fundamental measurement system of wireless SAW resonator type sensor |
| 75 | C.2.4 Key points of detection mechanism C.2.5 Technical documents Figure C.2 – Fundamental measurement system of wireless SAW reflective delay-line type sensor |
| 76 | Bibliography |
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