Fujitsu Develops Compact Frequency-Synthesizer for Terrestrial Digital TV Broadcast Tuners

Wednesday, February 10th, 2010
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Step toward compact dual-tuners for mobile phones

KAWASAKI, Japan — Fujitsu Laboratories Ltd. today announced the development of a new frequency-synthesizer designed specifically for tuners for terrestrial digital television broadcast reception, which features an innovative circuit design that enables the reduction of circuit size to one-third (1/3) that of conventional circuits, and eliminates the need for external components. The new frequency-synthesizer will allow for more compact and power-efficient terrestrial digital TV broadcast reception tuners, paving the way for future development of compact dual-tuners.

Details of this technology were presented at the IEEE International Solid-State Circuits Conference 2010 (ISSCC 2010) being held in San Francisco from February 7-11. (Presentation number: 13.3)

Background

Tuners used in televisions and mobile phones in Japan receive radio signals from broadcast towers and extract audio-visual data from those signals. Due to the fact that each channel transmitted by a broadcast tower occupies a different frequency, the tuners must use a frequency-synthesizer to generate a clock signal equivalent to the frequency of the channel the viewer wishes to watch. (Figure 1)

In Japan, the scheduled transition from analog TV broadcasts to digital TV (scheduled for July 2011) has heightened the demand for a frequency-synthesizer specifically designed for use in terrestrial digital broadcasting.

Band selection filter, High-frequency amp, Mixer, Channel selection filter, Low frequency amp, A-D converter, Digital demodulator, D-A converter, Frequency Synthesizer

Figure 1: Block diagram of a terrestrial digital TV broadcast tuner

Technological Challenges

In Japan, the popularity of “1seg” broadcasts viewed via mobile phones has led to needs for terrestrial digital TV broadcast tuners that are compact and which can operate on low power. In addition, there is also growing anticipation for mobile phones equipped with dual-tuners, which will enable simultaneous recording of multiple TV programs and quicker channel scanning. Synthesizers, a major component in these tuners, have typically used delta-sigma modulation in a fractional multiples method. However, this conventional method has required an external filter circuit to suppress the noise that can impair the tuner’s reception sensitivity — the need for such external filters is an obstacle to miniaturizing the module. Furthermore, with the conventional delta-sigma modulation/fractional multiples method (Figure 2), in order to create a dual-tuner, two (2) external filters are required, thus further increasing the size of the module.

Divider circuit, frequency comparator, charge pump, voltage controlled oscillator, divider circuit, delta sigma modulator, filter circuit

Figure 2. Block diagram of a frequency-synthesizer using conventional delta-sigma modulation

Newly-developed Technology

Fujitsu Laboratories has developed a new frequency-synthesizer tailored specifically for reception of terrestrial digital TV broadcasts (Figure 3) — the innovative frequency-synthesizer makes it possible to simultaneously realize noise suppression and scaling of tuners for terrestrial digital TV broadcasts.

Key elements of the new frequency-synthesizer are as follows:

Designed specifically for terrestrial digital TV broadcasting, the new frequency synthesizer uses a “circulating register” modulator, which has lower noise than conventional delta-sigma modulators.

Divider circuit, Frequency comparator, charge pump, filter circuit size can be significantly reduced, voltage controlled oscillator, control blocks in parallel, circulating register modulator

Figure 3. Frequency-synthesizer using “circulating registers”

Terrestrial digital TV broadcasts in Japan consist of 14 segments occupying 6 MHz of bandwidth: 12 segments for TV, one segment for “1seg” mobile phone broadcasts, and one segment left empty. Thus, the terrestrial digital TV broadcast channels are spaced by 6/14ths, or 3/7ths of 1 MHz; therefore the ability to generate a clock signal at 3/7th MHz intervals allows all of the channels to be received.

The new “circulating registers” modulator from Fujitsu Laboratories features an innovative circuit design in which seven (7) registers are lined up in parallel, resulting in accurate reception of 3/7th MHz frequency intervals that are used in terrestrial digital TV broadcasts in Japan, which makes possible an efficient 1/7th MHz multiplier needed for terrestrial digital TV broadcasts in Japan. These factors enable noise suppression, thus eliminating the need for an external filter circuit and resulting in a more compact frequency-synthesizer. (Figure 4)

Conventional delta-sigma modulation approach versus proposed circulating register approach, noise spread across a wide area, noise restricted to to frequencies that are 1/7th MHz apart

Figure 4. Conventional vs. new noise elimination methods
(Conventional: delta-sigma modulator. New: “circulating registers” modulator.)

Results

This new technology obviates the need for external components for the frequency-synthesizer, and reduces the circuit size to one-third (1/3) that of previous circuits. In order to verify the effectiveness of the newly-developed technology, Fujitsu Laboratories developed a prototype frequency-synthesizer made using 65-nm CMOS process technology (Figure 5). With the prototype frequency-synthesizer, noise was reduced to a level in which such noise can be safely disregarded (Figure 6).

post-div and 4div, REF-div, LC-VCO, AFC, S/H, 600µm, 500µm, DIV/PFD/CP, BIAS

Figure 5. Frequency-synthesizer prototype developed by Fujitsu Laboratories

With and Without Noise Elimination, 767.7125 MHz

Figure 6. Effectiveness of noise elimination

Future Developments

Fujitsu Laboratories plans to proceed with further development of the frequency-synthesizer for advanced CMOS process technology applications, striving for use of the frequency-synthesizer in a variety of tuner products.