EMIF03-SIM01 데이터 시트보기 (PDF) - STMicroelectronics
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EMIF03-SIM01 Datasheet PDF : 11 Pages
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EMIF03-SIM01
To have a good approximation of the remaining voltages at both Vin and Vout stages, we give the typical
dynamic resistance value Rd. By taking into account these following hypothesis : R>>Rd, Rg>>Rd and
Rload>>Rd, it gives these formulas:
Vinput = Rg ⋅Vbr + Rd ⋅Vg
Rg
Voutput = R ⋅Vbr + Rd ⋅Vin
R
The results of the calculation done for an IEC 1000-4-2 Level 4 Contact Discharge surge (Vg=8kV,
Rg=330Ω ) and Vbr=7V (typ.) give:
Vinput = 43.36V
Voutput = 7.65V (R = 100Ω)
8.38V (R = 47Ω)
This confirms the very low remaining voltage across the device to be protected. It is also important to note
that in this approximation the parasitic inductance effect was not taken into account. This could be few
tenths of volts during few ns at the Vin side. This parasitic effect is not present at the Vout side due the low
current involved after the series resistance R.
LATCH-UP PHENOMENA
The early ageing and destruction of IC’s is often due to latch-up phenomena which mainly induced by
dV/dt. Thanks to its RC structure, the EMIF03-SIM01 provides a high immunity to latch-up by integration of
fast edges. (Please refer to the response of the EMIF03-SIM01 to a 30 ns edge on Fig. A9)
The measurements done here after show very clearly (Fig. A5a & A5b) the high efficiency of the ESD
protection :
- almost no influence of the parasitic inductances on Vout stage
- Vout clamping voltage very close to Vbr for positive surge and close to ground for negative one
Fig. A4: Measurements conditions
TEST BOARD
V(in)
V(out)
EMI03
SIM01
6/11
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