Figure 1: Measuring on-die Vdd rail noise requires a suitably instrumented die and package |
Let's describe the technique most commonly used in the industry to measure voltages on the die itself. To measure the power-rail voltages on the die, you obviously need to be able to probe the rail. The connections coming off the die are routed to the bottom of the die to ball-grid-array (BGA) balls. Taking measurements directly from the die itself is a difficult task, so it's common to take the measurements from packaged devices.
If the die and package designers have done their jobs correctly, then the die will be packaged in such a way as to have sense lines from any Vdd or Vss core pads on the power rail all the way through the package (Figure 1). These direct path sense lines must not be connected to the package's power-delivery network (PDN) or to the board's PDN, but come unhindered to BGA balls on the bottom of the package.
Figure 2: On-die impedance measurements require two-port access |
Now, if you do not have a package instrumented in this fashion, you can't really look at the on-die measurements directly (in a subsequent post, we'll describe an indirect method). But if you do have a properly designed die and package, not only can you measure the on-die voltages, but you can also measure on-die impedances and the impedances of the PDN. Note that the latter requires two-port access to the die as shown in Figure 2.
As an aside, if you do have your chip package instrumented in this way, you can still use that package for production devices. You might have had a test (or bring-up) board instrumented with the separate, isolated power rails so as to more easily make the on-die measurements. Then, on the production PCBs, you'd connect these sense-line balls to the board's PDN. So it's not sharing the power rail on the package, but in all likelihood a lot of I/O connections will do so. This is why you can use the same instrumented package for both bring-up testing and for production.
With a properly designed die, package, and board, you can take three Vdd current waveform and response measurements that will tell you all you need to know about the PDN: the single clock-impulse response, the step response for PDN current transients, and a resonance response. Taking these measurements requires that you have a sense-line connection straight to the core of the die. But even if you don't, there's another way to skin this cat, and we'll describe it in our next post.
Previous posts in this series:
Understand RF Pickup When Measuring Power Rails
How 10X Attenuating Probes Kill Signal-To-Noise Ratio
Bandwidth vs. Current Load in Power-Rail Measurements
Power-Rail Noise: Small Signal, Big DC Offset
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