Driving the balanced lines of high speed modems has become a very popular application for high speed, high output current, dual operational amplifiers. High amplifier speed is required to faithfully process signal passbands of at least 1MHz bandwidth, and high output currents are required to meet peak drive levels into 100Ω or 135Ω termination. Taking into account peak-to-average signal ratios in these applications, Table 1 summarizes peak voltage/current drive levels required by current xDSL systems. The peak voltage and current drive values shown are for ADSL systems with 100Ω termination and HDSL/HDSL2 systems with 135Ω termination.
|xDSL||Nominal Transmit Power||Peak Voltage||Peak Current|
|ADSL DMT Upstream||13dBm||15VP-P||150mAP-P|
|ADSL CAP Upstream||13dBm||8.5VP-P||86mAP-P|
|ADSL CAP Downstream||20dBm||18.9VP-P||190mAP-P|
There are amplifier products available today that can address at least one, but not all, of the xDSL applications listed in Table 1. These products are single application specific and suffer from one or more of the following shortcomings: limited supply voltage operation, excessive zero-load power dissipation, large packaging/heat sinking and/or limited dynamic performance (thermal and intermodulation crosstalk).
The LT1497, a 50MHz, 125mA dual CFA from Linear Technology, is the fourth product in our family of high speed, high current dual current feedback amplifiers, capable of addressing any one or all five of the xDSL applications in Table 1. It operates from ±2.5V to ±15V supplies, consumes less than 7mA per amplifier and is available in both SO-8 and thermally enhanced S16 packages. With its 125mA output stage and available voltage swing to within 2V of either rail, the LT1497 is a good, economical choice because it allows the use of smaller turns-ratio (1:1 and 1:2) transformers to deliver power into the line. These transformers are less expensive than the high turns-ratio transformers required by some amplifiers that operate on a single supply voltage rail. In addition, its low quiescent supply current allows more modem lines per card because less PC board area is required for the device and heat sinking. Its low input offset voltage match (±3.5mV) and low TCVOS (10μV/°C)— not specified for other amplifiers—combine to eliminate output coupling capacitors used to block DC current flow through the transformer’s primary windings.
A Low Distortion HDSL Line Driver
Figure 1 shows an HDSL differential line driver circuit that transmits signals over a 135Ω twisted pair through a 1:1 transformer. The driver amplifiers are configured for gains of two (A1) and minus one (A2) to compensate for the attenuation inherent in the back termination of the line and to provide differential drive to the transformer.
Even though the input circuit configuration is single ended, the circuit configuration can be very easily manipulated to accommodate differential output analog front ends (AFEs) and/or single supply rail operation for the line driver circuit. For HDSL applications, the LT1497’s high output current and voltage swing drive the 135Ω line at the required distortion level of –72dBc. For an HDSL data rate of 1.544Mbps, the fundamental frequency of operation is 392kHz.
The circuit of Figure 1 was evaluated for harmonic distortion with a 400kHz sine wave and an output level of 5.6VP-P into 135Ω, representing peak drive operation into the HDSL termination. Figure 2 shows that the second harmonic is –72.3dB relative to the fundamental for the 135Ω load. Third harmonic distortion is not critical, because received signals are heavily filtered before being digitized by an A/D converter.
With multicarrier applications, such as discrete multitone modulation (DMT), becoming as prevalent as single carrier applications, another important measure of amplifier dynamic performance is 2-tone intermodulation distortion. This evaluation is a valuable tool for evaluating amplifier linearity when processing more than one tone at a time. For this test, two sine waves at 300kHz and 400kHz were used, with levels set to obtain 5.6VP-P across the 135Ω load. Figure 3 shows that the third-order intermodulation products are well below –72dB.
The new LT1497 offers outstanding distortion performance in an SO-8 package with remarkably low power dissipation and very attractive high speed modem system economics. It is ideally suited for single-pair digital subscriber line systems, specifically DMT remote terminal, CAP central office/remote terminal, HDSL or HDSL2 line-driver applications.