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  1.   1
  2.   Abstract
  3. 1Isolator Construction
  4. 2Switching Performance
  5. 3Isolator Lifetime Through TDDB Test
  6. 4Solution Size
  7. 5Aging and Reliability
  8. 6Common-Mode Transient Immunity (CMTI)
  9. 7Optocoupler Current Input vs Digital Isolator CMOS Voltage Input
  10. 8Conclusion
  11. 9References

Isolator Construction

Even though both capacitive digital isolators and optocouplers offer similar functionality, these devices are quite different in construction and working principle. Optocouplers use an LED to transmit digital or analog information across an isolation (or insulation) barrier (often just an air gap). Some optocouplers use epoxy as the insulating material which offers slightly better dielectric strength than air, as shown in Figure 1-1. Conversely, capacitive digital isolators are constructed with two series isolation capacitors using SiO2 as the dielectric, as shown in Figure 1-2. SiO2 offers one of the highest dielectric strengths among insulating materials and is significantly stronger compared to dielectrics used by competing isolation technologies, as shown in Table 1-1.

GUID-20201007-CA0I-GDMR-MTSJ-9MSL52VQJF5T-low.gifFigure 1-1 Construction of a Typical Optocoupler
GUID-20201007-CA0I-WQVT-JBTB-08L9C1H0GXFX-low.gifFigure 1-2 Construction of a TI Digital Isolator
Table 1-1 Dielectric Strength of Various Insulating Materials
Insulator Materials Dielectric Strength
Air About 1 VRMS/µm
Epoxies About 20 VRMS/µm
Silica Filled Mold Compounds About 100 VRMS/µm
Polyimide About 300 VRMS/µm
SiO2 About 500 VRMS/µm