Threshold voltage

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Differential signaling is a method of transmitting information electrically with two complementary signals sent on two paired wires, called a differential pair. Since external interference tend to affect both wires together, and information is sent only by the difference between the wires, the technique improves resistance to electromagnetic noise compared with use of only one wire and an un-paired reference (ground). The technique can be used for both analog signaling, as in balanced audio, and digital signaling, as in RS-422, RS-485, Ethernet over twisted pair, PCI Express, DisplayPort, HDMI, and USB. The opposite technique is called single-ended signaling. Differential pairs are usually found on a printed circuit board, in cables (twisted-pair cables, ribbon cables), and in connectors.

Advantages

Tolerance of ground offsets

At the end of the connection, the receiving device reads the difference between the two signals. Since the receiver ignores the wires' voltages with respect to ground, small changes in ground potential between transmitter and receiver do not affect the receiver's ability to detect the signal.

Suitability for use with low-voltage electronics

In the electronics industry, and particularly in portable and mobile devices, there is a continuing tendency to lower the supply voltage in order to save power and reduce unwanted emitted radiation. A low supply voltage, however, causes problems with signaling because it reduces the noise immunity. Differential signaling helps to reduce these problems because, for a given supply voltage, it gives twice the noise immunity of a single-ended system.

To see why, consider a single-ended digital system with supply voltage ${\displaystyle V_{S}}$. The high logic level is ${\displaystyle V_{S}\,}$ and the low logic level is 0 V. The difference between the two levels is therefore ${\displaystyle V_{S}-0\,\mathrm {V} =V_{S}}$. Now consider a differential system with the same supply voltage. The voltage difference in the high state, where one wire is at ${\displaystyle V_{S}\,}$ and the other at 0 V, is ${\displaystyle V_{S}-0\,\mathrm {V} =V_{S}}$. The voltage difference in the low state, where the voltages on the wires are exchanged, is ${\displaystyle 0\,\mathrm {V} -V_{S}=-V_{S}}$. The difference between high and low logic levels is therefore ${\displaystyle V_{S}-(-V_{S})=2V_{S}\,}$. This is twice the difference of the single-ended system. Supposing that the voltage noise on one wire is uncorrelated to the noise on the other one, the result is that it takes twice as much noise to cause an error with the differential system as with the single-ended system. In other words, the noise immunity is doubled.

Resistance to electromagnetic interference

This advantage is not directly due to differential signaling itself, but to the common practice of transmitting differential signals on balanced lines.^[1][2] Single-ended signals are still resistant to interference if the lines are balanced and terminated by a differential amplifier.

Comparison with single-ended signaling

In single-ended signaling, the transmitter generates a single voltage that the receiver compares with a fixed reference voltage, both relative to a common ground connection shared by both ends. In many instances single-ended designs are not feasible. Another difficulty is the electromagnetic interference that can be generated by a single-ended signaling system that attempts to operate at high speed.

Uses

The technique minimises electronic crosstalk and electromagnetic interference, both noise emission and noise acceptance, and can achieve a constant and/or known characteristic impedance, allowing impedance matching techniques important in a high-speed signal transmission line or high quality balanced line and balanced circuit audio signal path.

Differential pairs include:

• twisted-pair cables, shielded and unshielded
• microstrip and stripline differential pair routing techniques on printed circuit boards

The latter can be considered as a PCB implementation of the well-known twisted-pair cable, a common implementation of the differential pair.

Differential pairs are generally used to carry differential or semi-differential signals, such as high-speed digital serial interfaces including LVDS differential ECL, PECL, LVPECL, SATA, Hypertransport, Ethernet over twisted pair, Serial Digital Interface, RS-422, RS-485, USB, Serial ATA, TMDS, FireWire, and HDMI etc. or else high quality and/or high frequency analog signals (e.g., video signals, balanced audio signals, etc.).

Data rates of some interfaces implemented with differential pairs

• Serial ATA 1.2 Gbit/s
• Hypertransport 1.6 Gbit/s
• Infiniband 2.5 Gbit/s
• PCI Express 2.5 Gbit/s
• Serial ATA Revision 2.0 2.4 Gbit/s
• XAUI 3.125 Gbit/s
• Serial ATA Revision 3.0 4.8 Gbit/s
• PCI Express 2.0 5.0 Gbit/s per lane
• 10 Gigabit Ethernet 10 Gbit/s (4 differential pairs running at 2.5 Gbit/s each)

Transmission lines

The type of transmission line used to connect two devices (chips, modules) dictates the type of signaling to be used. Single-ended signaling is used with coaxial cables, in which one conductor totally screens the other from the environment. All screens (or shields) are combined into a single piece of material to form a common ground. Differential signaling is used with a balanced pair of conductors. For short cables and low frequencies, the two methods are equivalent, so cheap single-ended circuits with a common ground can be used with cheap cables. As signaling speeds become faster, wires begin to behave as transmission lines.

Use in computers

Differential signaling is often used in computers to reduce electromagnetic interference, because complete screening is not possible with microstrips and chips in computers, due to geometric constraints and the fact that screening does not work at DC. If a DC power supply line and a low-voltage signal line share the same ground, the power current returning through the ground can induce a significant voltage in it. A low-resistance ground reduces this problem to some extent. A balanced pair of microstrip lines is a convenient solution, because it does not need an additional PCB layer, as a stripline does. Because each line causes a matching image current in the ground plane, which is required anyway for supplying power, the pair looks like four lines and therefore has a shorter crosstalk distance than a simple isolated pair. In fact, it behaves as well as a twisted pair. Low crosstalk is important when many lines are packed into a small space, as on a typical PCB.

High-voltage differential signaling

High-voltage differential (HVD) signaling uses high-voltage signals. In computer electronics, "high voltage" normally means 5 volts or more.

SCSI-1 variations included a high voltage differential (HVD) implementation whose maximum cable length was many times that of the single-ended version. SCSI equipment for example allows a maximum total cable length of 25 meters using HVD, while single-ended SCSI allows a maximum cable length of 1.5 to 6 meters, depending on bus speed. LVD versions of SCSI allow less than 25 m cable length not because of the lower voltage, but because these SCSI standards allow much higher speeds than the older HVD SCSI.

The term high-voltage differential signaling is a generic one that describes a variety of systems. Low-voltage differential signaling or LVDS, on the other hand, is a specific system defined by a TIA/EIA standard.

See also

• Backplanes
• Current loop signaling
• Current mode logic (CML)
• DDR2 SDRAM
• Differential amplifier
• Differential TTL
• DisplayPort
• Longitudinal voltage
• Signal integrity
• Transition Minimized Differential Signaling (TMDS)

References

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