Echelon FT 3150 Smart Transceiver User Manual

FT 3120 / FT 3150 Smart Transceiver Data Book

135

Handling Precautions and Electrostatic Discharge

Figure C.6 Networks for Minimizing ESD and Reducing CMOS Latch-Up Susceptibility

t

C

•k

R

≈

V

DD

V

SS

R1

R2

TO OFF-BOARD

CONNECTION

TO OFF-BOARD

CONNECTION

MOS

INPUT

OR

OUTPUT

MOS

INPUT

OR

OUTPUT

Advantage: Requires minimal board area.
Disadvantage:R1 > R2 for the same level of

protection, therefore rise and fall
times, propagation delays, and
output drives are severely affected.

D1

D2

Advantage: R2 < R1 for the same level of

protection. Impact on ac and dc
characteristics is minimized.

Disadvantage: More board area, higher initial cost.

NOTE: These networks are useful for protecting the following:

a.digital inputs and outputs
b.analog inputs and outputs
c.three-state outputs
d.bidirectional (I/O) ports

Equation 1 – Propagation Delay vs. Se-

ries Resistance

where:

R = the maximum allowable series resistance in ohms

t = the maximum tolerable propagation delay in seconds

C = the board capacitance plus the input capacitance

of the driven device in farads

k = 0.33 for the TTL input levels (switch point = 1.3 V)

Equation 2 – Rise Time vs.

Series Resistance

t

C

•k

R

≈

where:

R = the maximum allowable series resistance in ohms

t = the maximum rise time per data sheet in seconds

C = the board capacitance plus the input capacitance

of the driven device in farads

k = 2.3 for other devices