CM1233
PicoGuard XS
ESD Protection Archi-
tecture
Conceptually, an ESD protection device performs the
following actions upon an ESD strike discharge into a
protected ASIC (see
1. When an ESD potential is applied to the system
under test (contact or air-discharge), Kirchoff’s
Current Law (KCL) dictates that the Electrical
Overstress (EOS) currents will immediately divide
throughout the circuit, based on the dynamic
impedance of each path.
2. Ideally, the classic shunt ESD clamp will switch
within 1ns to a low-impedance path and return the
majority of the EOS current to the chassis shield/
reference ground. In actuality, if the ESD compo-
nent's response time (t
CLAMP
) is slower than the
ASIC it is protecting, or if the Dynamic Clamping
Resistance (RDYN) is not significantly lower than
the ASIC's I/O cell circuitry, then the ASIC will have
to absorb a large amount of the EOS energy, and
be more likely to fail.
3. Subsequent to the ESD/EOS event, both devices
must immediately return to their original specifica-
tions, and be ready for an additional strike. Any
deterioration in parasitics or clamping capability
should be considered a failure, since it can then
affect signal integrity or subsequent protection
capability. (This is known as "multi-strike" capabil-
ity.)
In the CM1233
PicoGuard XS
architecture, the signal
line leading the connector to the ASIC routes through
the CM1233 chip which provides 100Ω matched
differential channel characteristic impedance that helps
optimize 100Ω load impedance applications such as
the HDMI high speed data lines.
Note:When each of the channels are used individually
for single-ended signal lines protection, the indi-
vidual channel provides 50Ω characteristic imped-
ance matching.
The load impedance matching feature of the CM1233
helps to simplify system designer’s PCB layout
considerations in impedance matching and also
eliminates associated passive components.
The route through the
PicoGuard XS
architecture
enables the CM1233 to provide matched impedance
for the signal path between the connector and the
ASIC. Besides this function, this circuit arrangement
also changes the way the parasitic inductance interacts
with the ESD protection circuit and helps reduce the
I
RESIDUAL
current to the ASIC.
ESD Strike
ESD
ESD
Protection
PROTECTION
Device
DEVICE
I /O
Connector
ASIC
I
SHUNT
I
RESIDUAL
Figure 1. Standard ESD Protection Device Block Diagram
© 2008 California Micro Devices Corp. All rights reserved.
2
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Issue A – 03/18/08
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