A new GaAs negative voltage generator suitable for biasing a GaAs MESFET power amplifier has been successfully developed and applied to a 1.9-GHz single-chip transmit/receive (T/R)-MMIC front-end including a power amplifier, a T/R-switch, and so on. To meet various requirements necessary for integration with a power amplifier, four new circuit techniques are introduced into this generator: (1)complementary charge pump operation to suppress spurious outputs. (2)an SCFL-to-DCFL cross-coupled level shifter to ensure a wide operation voltage range, (3)a level control circuit to reduce output voltage deviation caused by output current, and (4)interface and layout designs to achieve sufficient isolation between the power amplifier and the generator. The generator was incorporated into the MMIC front-end, and it was tested with a 30-lead shrink small outline package. With 20-to-500-MHz external input signals of more than -15 dBm, the generator produces negative voltages from -1.0 to -2.6 V for a wide range of suppiy voltages from 1.6 to 4.5 V. The current consumption is as low as 3.2 mA at 3 V. When a 22-dBm output is delivered through the power amplifier biased by the generator, low spurious outputs below -70 dBc are achieved. and gate-bias voltage deviations are suppressed to within 0.06 V even when a gate current of -140 µA flows through the amplifier. The generator also enables high speed operation of charge time below 200 ns, which is effective in TDMA systems such as digital cordless telephone systems. In layout design, electromagnetic simulation was utilized for estimating sufficient isolation between circuits in the MMIC. This negative voltage generator and its application techniques will enable GaAs high-density integration devices as well as single voltage operation of a GaAs MESFET power amplifier.

As the Hypertext Transfer Protocol (HTTP) becomes more popular for network communication, network loads in areas with less developed network infrastructures will be an increasing problem. This paper presents a system which extends a WWW-server with a gateway to an RDBMS and a mail program, allowing for interactive query formulation together with return of potentially large query results by e-mail. These results can then be downloaded by the user when network loads are low.

Low-power technology for front-end GaAs ICs and hybrid IC (HIC) for a mobile communication equipment will be presented. For low-power operation of GaAs front-end ICs, new techniques of the intermediate tuned circuits, the single-ended mixer, dualgate MESFETs, and the asymmetric self-aligned LDD process were investigated. The designed down-converter IC showed conversion gain of 21 dB, noise figure of 3.5 dB, 3rd-order intercept point in output level (IP3out) of 4.0 dBm, image-rejection ratio of 20 dB at 880 MHz, operating at 3.0 V of supply voltage and 5.0 mA of dissipation current. The down-converter IC was also designed for 1.9 GHz to obtain conversion gain of 20 dB, noise figure of 4.0 dB, IP3out of 4.0 dBm, image-rejection ratio of 20 dB at 3.0 V, 5.0 mA. The up-converter IC was designed for 1.9 GHz using the same topology of circuit and showed conversion gain of 15 dB, IP3out of 7.5 dBm, and 1 dB compression level of -8 dBm with -20 dBm of LO input power, operating at 3.0 V, 8.0 mA. Another approach to the low-power operation was carried out by HIC using the GaAs down-converter IC chip. The HIC was designed for 880 MHz to show conversion gain of 27 dB, noise figure of 3.3 dB, IP3out of 3.0 dBm, image-rejection ratio of 12 dB, at 2.7 V, 4.5 mA. The HIC measures only 8.0 mm6.0 mm1.2 mm.

Knowledge-based Database Assistant is an expert system designed to help novice users formulate correct and complete database queries. This paper describes a knowledge-based database assistant with advanced facilities such as (1) a menu-based querymaking guidance, (2) a menu-based natural-language user-interface, and (3) database-commands generator which formulates formal database queries with SQL language. The system works as an intelligent front-end to an SQL database system or a computer-aided SQL tutorial-system. In this paper, we also discuss a semantic-network model, named S-Net, which is used to represent the knowledge for formal database-query formulating processes. The menu-based English user-interface allows end-users to make a query by filling a certain query pattern with appropriate words. The query-pattern filling process is guided by pop-up menus provided by the system. The query-pattern instances thus obtained are then translated into formal database queries. The translation is carried out by evaluating operations on S-Net knowledge-base which conveys knowledge about application domain, and the underlying database schema.