On-die termination
Encyclopedia
On-die termination is the technology where the termination
Electrical termination
Electrical termination of a signal involves providing a terminator at the end of a wire or cable to prevent an RF signal from being reflected back from the end, causing interference...

 resistor for impedance matching
Impedance matching
In electronics, impedance matching is the practice of designing the input impedance of an electrical load to maximize the power transfer and/or minimize reflections from the load....

 in transmission line
Transmission line
In communications and electronic engineering, a transmission line is a specialized cable designed to carry alternating current of radio frequency, that is, currents with a frequency high enough that its wave nature must be taken into account...

s is located inside a semiconductor chip instead of on a printed circuit board
Printed circuit board
A printed circuit board, or PCB, is used to mechanically support and electrically connect electronic components using conductive pathways, tracks or signal traces etched from copper sheets laminated onto a non-conductive substrate. It is also referred to as printed wiring board or etched wiring...

.

Overview of electronic signal termination

In lower frequency (slow edge rate) applications, interconnection lines can be modelled as "lumped" circuits. In this case there is no need to consider the concept of "termination". Under the low frequency condition, every point in an interconnect wire can be assumed to have the same voltage as every other point for any instance in time.

However, if the propagation delay in a wire, PCB trace, cable, or connector is greater than 1/6 of the rise time of the digital signal, the "lumped" circuit model is no longer valid and the interconnect has to be analyzed as a transmission line
Transmission line
In communications and electronic engineering, a transmission line is a specialized cable designed to carry alternating current of radio frequency, that is, currents with a frequency high enough that its wave nature must be taken into account...

. In a transmission line, the signal interconnect path is modeled as a circuit containing distributed inductance, capacitance and resistance throughout its length.

In order for a transmission line to minimize distortion of the signal, the impedance of every location on the transmission line should be uniform throughout its length. If there is any place in the line where the impedance is not uniform for some reason (open circuit, impedance discontinuity, different material) the signal gets modified by reflection at the impedance change point which results in distortion, ringing and so forth.

When the signal path has impedance discontinuity, in other words an impedance mismatch, then a termination impedance with the equivalent amount of impedance is placed at the point of line discontinuity. This is described as "termination". For example resistors can be placed on computer mother boards to terminate high speed busses. There are several ways of termination depending on how the resistors are connected to the transmission line. Parallel termination and series termination are examples of termination methodologies.

On-die termination

Instead of having the necessary resistive termination located on the motherboard, the termination is located inside the semiconductor chips–technique called On-Die Termination (abbreviated to ODT).

Why is on-die termination needed?

Although the termination resistors on the motherboard reduce some reflections on the signal lines, they are unable to prevent reflections resulting from the stub lines that connect to the components on the module card (e.g. DRAM Module). A signal propagating from the controller to the components encounters an impedance discontinuity at the stub leading to the components on the module. The signal that propagates along the stub to the component (e.g. DRAM component) will be reflected back onto the signal line, thereby introducing unwanted noise into the signal.In addition, on-die termination can reduce the number of resistor elements and complex wiring on the mother board. Accordingly, the system design can be simpler and cost effective.

Example of ODT: DRAM

On-die termination is implemented with several combinations of resistors on the DRAM silicon along with other circuit trees. DRAM circuit designers can use a combination of transistors which have different values of turn-on resistance. In the case of DDR2, there are three kinds of internal resistors 150ohm, 75ohm and 50ohm. The resistors can be combined to create a proper equivalent impedance value to the outside of the chip, whereby the signal line (transmission line) of the motherboard is being controlled by the on-die termination operation signal. Where an on-die termination value control circuit exists the DRAM controller manages the on-die termination resistance through a register. Needless to say, as the DRAM frequency increases toward DDR3, the on-die termination value has to be adjusted. Accordingly the internal on-die termination values in DDR3 are 120ohm, 60ohm, 40ohm and so forth.
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