REQUIREMENTS OF ESD PROTECTION MECHANISM AT SOC
The sole aim of ESD protection strategy is to divert the ESD current spike away from sensitive circuitry and protect the system from permanent damage.
Figure 1: System Level Network Presentation
An ESD protection mechanism must fulfill the below requirements:
- It must provide dual polarity protection, i.e., should provide ESD protection in case of both positive and negative spikes.
- The ESD protection device must be able to handle high current transients.
- The ESD protection path must have very low resistance in case of ESD currents. Typical resistance value is 1 ohm.
- The ESD protection device clamps the voltage of sensitive circuits below safe functional voltage level.
The typical ESD protection methods used in SOCs are:
· Distributed rail based clamp network; and
· Snapback clamp protection devices.
Snapback Protection Method : The conventional snapback clamp protection method depends on the theory of avalanching junctions to trigger parasitic LNPN (lateral NPN) or Silicon Controlled Resistor (SCR). Most popular protection devices in snapback method are MOSFET and SCR. Under ESD conditions, these devices operate in breakdown region. The most important features of snapback based protection are as follows:
- It can be made robust by optimization.
- Being generally immune to false triggering, it can be used for fail safe applications.
On the other hand,
- It is very much process dependent and difficult to simulate.
- A ballast resistance is required to protect the NMOS output buffer.
- The protection clamp may occupy large layout area and may add significant capacitance to IO pad.
The typical snapback I-V characteristics of protection device (Grounded gate NMOS) are shown in figure 2(b). With the increase in drain voltage, many electron-hole pairs are generated by impact ionization and the drain substrate junction of parasitic LNPN shown in figure 2(a) becomes more reverse biased and eventually goes into avalanche breakdown. Electrons that occur due to impact ionization flow to the drain