[Abstract of Paper]

D. H. Chung, K. S. Jung, J. S. Lee, Y. H. Jeong, and B. M. Kim, "DC and AC Characterlstics of Al _0.25 Ga _0.75 As/GaAs Quantum-WelI Delta-Doped Channel FET Grown by LP-MOCVD," IEEE Elect. Device Letts., Vol. I3, No. 5, May l992, pp. 270-272
The Effect of Parasitic Components of GaAs FETs on High-frequency Gain

Youngseok Seo, Bumman Kim, and Wee Sang Park

Abstract

Parasitic component effects on the gain of GaAs FETs are described. Numerical simulation shows that the frequency range of the unstable region(K<1) of an fet decreases as gate resistance>

Power-Gain and f_max Equations Based on the T Equivalent Circuit of High-frequency Bipolar Trasistors

Youngseok Seo, Bumman Kim

Abstract

Analytical expressions for the maximum availabel power gain and f_max of a high-frequency bipolar trasistor are derived from the simple T equivalent circuit model of bipolar transistors. These equations predict the power gain of the state-of-the-art microwave bipolar transistor very well and show that f_max and power gain are proportional to the transconductance and decrease as the resistance-capacitance charging tine and current gain delay time increase.

l/f Noise Characteristic of AlGaAs/GaAs Heterojunction Bipolar Transistor with a Noise Corner Frequency Below l kHz

Jin-Ho Shin, Joonwoo Lee, YoungSeok Suh, and Bumman Kim

Abstract

To reduce the low-frequency noise, HBT's with a large emitter size of 120X120 um² are fabricated on abrupt emitter-base junction materials without undoped spacer. The HBT's exhibit an internal noise corner frequency of 100 Hz, which is much lower than about 100 jHz of conventional AlGaAs/GaAs HBT's. From the very low noise HBT's, the existence of resistance fluctuation 1/f noise is clearly verified by the simple comparison of collector current noise spectra with different base terminations. It is found that, at a high emitter-base forward bias, the resistance fluctuation 1/f noise becomes dominant for shorted base-emitter termination, but the internal 1/f noise dominant for open base. Device design rules for low noise small-feasure size HBT, including resistance fluctuation,are discussed.

Extraction of Lateral Device Parameters and ChanneI Doping Profile of Vertical Double Diffused MOS Transistors

Jongoh Kim, Byounguk lhn, Bumman Kim, Kwangil Lee, Wonho Lee, and Seounghwan Lee

Abstract

An extraction method for device dimensions and the lateral channel doping profile of a vertical double-diffused MOS transistor has been developed. Using C-V characterization and two-dimensional numerical analysis, the lateral device structure parameter could be extracted. The extracted device parameters are in good agreement with the expected values for a fabricated device sample. The proposed method in this paper can be very useful for analysing the electrical characteristics of VDMOS transistors.

Low disspation power and high linearity PCS power amplifier with adaptive gate bias control circuit

K.J. Youn, B. Kim, C. S. Lee, S. J. Maeng, J. J. Lee, K. E. Pyun, and H. M. Park

Abstract

A new PCS power amplifier with gate bias control circuit has been developed for high efficiency at low output power level, and for high linearity at high output power level. The efficiency at an average operating power of 16dBm was improved to 10.5%, and the IMD₃ at the maximum operating of 27dBm to -33dBc.

GaAs low-high doped MESFET MMIC power amplifier for CDMA/AMPS dual-mode cellular telephone

T. M. Roh, Y. Suh, B. Kim, W. S. Park, J. B. Lee, Y. S. Kim, and G. Y. Lee

Abstract

An MMIC power amplifier using low-high doped GaAs MESFETs (LH-MESFETs) has been developed for a CDMA/AMPS dual mode cellular telephone. It is fully integrated on one chip(2.5X2.9mm²) including all mating circuits. For CDMA operation at frequency of 863.5MHz, an efficiency of 25%, adjacent channel leakage power of -29dBc at 885kHz, and -48dBc at 1980kHz were obtained with an output power of 27.25dBm and Vdd=4.7V. In AMPS operation, 30.5dBm output power was obtained with 27.5dB gain and 47% efficiency. The experimental results show that the gate periphery of LH-MESFETs and size of MMIC are much smaller than in previously reported similar amplifiers using conventional MESFET technology. Thos MMIC power amplifier is suitable for dual mode cellular applications.

A Highly Accurate MESFET Model to Predict the Nonlinear Behavior of a Linear Power Amplifier

T. M. Roh, Y. Suh, Y. S. Kim, W. S. Park, and B. Kim

Abstract

A new channel current model to accurately represent I-V curves has been developed, adn its effect on the nonlinear parameters of MESFET models such as Ids, Cgs, Cgd, and Cds has been investigated for linear power amplifier design. The channel current midel should be constructed from pulsed I-V data at operation bias point, and the nonlinear behavior of a GaAs MESFET is strongly dependent on the Cgs model.

A Simple and Accurate MESFET Channel-Current Model Including Bias-Dependent Dispersion and Thermal Phenomena

Tae Moon Roh, Youngsik Kim, Youngsuk Suh, Wee Sang Park, and Bumman Kim

Abstract

A new channel-current model of GaAs MESFET suitable for applications to microwave computer-aided design(CAD) has been developed. This model includes the frequency-dispersion effects due to traps and thermal effects. The model parameters are extracted from pulsed I-V measurements at several ambient temperature and quiescent bias points. This model is verified by simulating nonlinear circuits, such as a power amplifier and a mixer.

A novel higher order extending method in a MESFET channel current model for Volterra series analysis

Youngsik Kim, Tae Moon Roh, Bumman Kim

Abstract

We propose a new method to find the higher order Taylor series coefficients of a MESFET channel current model for Volterra series analysis from the measured lower order Taylor coefficients at several bias points. Generally, the third-order Taylor expansion is not sufficient to accurately characterize the linear amplifier distortion properties. The channel current model is improved with these additional higher order terms.

Experimental Study of Emitter size Effects of Microwave AlGaAs/GaAs HBTs

Abstract

AlGaAs/GaAs HBTs were fabricated using SABM process. Cr layer on the top of the emitter metal used as a RIE mask increased self-align yield and thick gold plating layer deposited on the emitter contributed to the remarkable improvement of HBTs electrical and thermal performances. Experimental results on the emitter size effects have shown that the current gain cutoff frequency f_T does not appreciably depend on emitter sizes in small feature HBTs, but power gain cutoff frequency f_max falls off as the emitter length increases from 20um to 30um

GaAs/InGaAs Heterostructure FETs with 1.6W Output Power at 1GHz

J. W. Lee, M. K. Gong, S. G. Cho, and B. Kim

Abstract

Data are presented on high power GaAs/InGaAs pseudomorphic heterostructure FETs with delta doped channels, which are applicable for the low voltage operating cellular phone power modules. Process yields of such AlGaAs-free device are significantly improved in epitaxy and ohmic metalization. With a 5V Class A bias condition, the packaged device with a 1.2umX12mm gate exhibits a power output of 1.6W and a power added efficiency of 44-percent at 1GHz operation. The smaller device with a 1.2umX2mm gate shows a 160mW output and 34-percent efficiency at 2GHz with 3.3V bias. These results imply that the GaAs/InGaAs HFET can be a strong candidate for the low cost commercial source of many kinds of high power microwave devices operating at relatively low operating voltages.

Linearity characteristics of the low-high doped MESFET for CDMA cellular phone

T. M. Roh, Y. S. Suh, B. Kim, W. S. Park, J. B. Lee, J. W. Kim, Y. S. Kim, and G. Y. Lee

Abstract

The linearity of the low-high doped MESFET is tested for its application to CDMA cellular phone. The guideline to the impedance matching of linear power amplifier is given. The comparison of linearity properties between low-high doped MESFET and conventional ion implanted MESFET is also presented . The low-high doped MESFET is far superior and a fabricated power amplifier based on the MESFET exhibits an output power of 26.3dBm and PAE of 24% with -33dBc IMD.

Thermal Analysis of AlGaAs/GaAs Heterojuction Bipolar Transistors Including Base Recombination Current Effect

B. U. Ihn, J. Lee, Y. Suh, and B. Kim

Abstract

One of the major influences on the NDR(negative differential output resistance) effect of AlGaAg/GaAs HBTs is the surface recombination current. It degrades current gain and affects thermal stability. In this work, we have separated the base current into area and edge current components, and have extracted the formula for each current components. The electro-thermal simulation which satisfies the elcectricalequations and heat transfer equation has been performed. The electrical equations included the temperature-dependent nonuniform base current and current gain. The simulated result shows a good agreeement with measured I-V curve, indicating that the model used in this simulation is useful for analyzing exact thermal behaviors of HBTs.

Extraction of Low Frequency Noise of Self Aligned AlGaAs/GaAs Heterojunction Bipolar Transistor

J. H. Shin, Y. Chung, Y Suh, and B. Kim

Abstract

The first quanttive extraction of low-frequency noise equivalent circuit model of self-aliged AlGaAs/GaAs heterojunction bipolar transistor has been performed. It is based on a generalized small signal circuit model including the base emmiter series resistance noise sources. The dominant noise sources are emitter-base current noise source and the resistance noise source. The emitter-collector current noise source is negligible.

Design study of Linearized AlGaAs/GaAs HBTs Using Volterra Series

Joonwoo Lee, Woonyyun Kim, Youngsik Kim, Taemoon Roh, and Bumman Kim

Abstract

The intermodulation(IM) mechanism of HBT has been studied theoretically and experimentally. Volterra Series analysis with an analytical nonlinear HBT model shows that IP3 can be greatly enhanced by using a punch-through collector structure. It is also found that the high linearity of HBT stems mainly from the almost exact cancellation between base-emitter and base-collector nonlinear current components. The fabricated HBT with a punch-through collector has the IP3 of 31 dBm at a dc power consumption of 150mW, which is 3 dB higher than those of HBTs with normal collector.

A new simple extraction method for higher order components of channel current in GaAg MESFET

Tae Moon Roh, Youngsik Kim, Youngsuk Suh, and Bumman Kim

Abstract

A simple new extraction method of the higher order channel current in GaAs MESFET has been developed. Low frequency ( ~60MHz) two-tone signals are employed to measure the harmonic components. The measured data are fitted to the Volterra series analysis for extracting of Taylor series coefficients of the nonlinear channel current. This proposed parameter extraction procedure is simple and straightforward. The extracted current model is utilized successfully for intermodulation analysis.

Low-Frequency Noise Characteristics of Self-Aligned AlGaAs/GaAs HBT's With A Noise Corner Frequency Below 3 kHz

Jin-ho Shin, Jiyoung Kim, Yujin Chung, Joonwoo Lee, Kyu Hwan Ahn and Bumman Kim

Abstract

We have investigated the surface recombination and its 1/f noise properties of AlGaAs/GaAs HBT's as a function of the emitter-base structure and the surface passivation condition. It is found that the surface recombination 1/f noise can be significantly reduced by the heterojunction launcher of the abrupt junction with 30% Al mole fraction emitter. The depletion AlGaAs ledge surface recombination currents. Consquently, we have achieved a very low 1/f noise corner frequency of 2.8kHz at the collector current density of 10kA/cm². The dominant noise source of the HBT is not a surface recombiantion current, but a bulk current noise. This is the lowest 1/f noise corner frequency among the III-V compound semiconductor devices, and comparable to those of low-noise Si BJT's.

�ʰ�� PIN ��̿�� 4-bit �� 

��¹�, ��ȫ, ��â, ��, ��

Abstract

A microwave PIN diode 4-bit phase shifter is designed in X-band. Aloaded-line type is used for the 22.5^o and 45^o bits, and a switched-line type for the 90^o and 180^o bits. The measured results show that the phase error and average insertion loss are less than 5.4^o and 7.2dB, respectively over a 9.75-10.25GHz frequency band.

X-band�� AlGaAs/GaAs �� HBTs

��ؿ�, ��, ��μ�, �κ��, ��ȣ, ��, ��, ��

Abstract

�ڱ� �� ̽� �� AlGaAs/GaAs HBTs�� Ͽ��. �ڱ� �� Ű�� Ͽ� ũ�� ݼ� �� ǽ� �İ� ��ũ�� ϴ� �� intrinsic �� ٷ� �� ϴ� �� Ͽ� HBT�� DC/RF �� Ư�� ũ�� ״�. W_B=0.1um�� W_C=0.4um�� #19294 HBT�� beta=40, BV_CBO=30 V, nB=1.51, nC=1.18��, �׸�� #19894 HBT(W_B-0.14um, W_C=1.0um)�� beta=20, BV_CBO=30V, nB=1.10, nC=1.01�� ־��. 3umX20um �� ũ�� HBT�κ�� punch-through �÷�� #19294 �� ft=65GHz, fmax=46GHz�� normal �÷�� #19394 ��ڿ�� ft=45GHz, fmax=51GHz�� . �� HBT�� ſ� �� Ҹ�� Ic=0.8mA, Vce=1.5V�� ̾ ��ǿ�� punch-through �÷�� HBT�� 2GHz�� ּ� �� ̵�� 1.58 dB�� 12.2 dB�� Ǿ��. 10GHz�� 60um² �� ũ�� #19894 HBT�� 3V�� DC �� 10.5dB�� ̵�, 12dBm�� , 25%�� ȿ�� ־�� 180um²�� ũ�� HBT�� 8.9dB�� ̵�, 16dBm�� , 28%�� ȿ�� ־��.

�޴�� TRS �ܸ��⸦ �� 3W�� 

��¹�, ��, ��, �ڻ��, ��ȯ, ��

Abstract

��ȿ�� Ư�� 䱸�Ǵ� �޴�� TRS �ܸ��⸦ �� ȿ�� Ư�� ˷�̳� ��ǰ� �� ȸ�� ڸ� �� Ͽ��. �ϼ�� ļ��뿪 719-734MHz, �巹�� ̾ 7.2V �Ͽ�� 34.5dBm, PAE 58%, �̵� 28.5dB�� Ư�� ־��. �� 40dBc ��, ��ü �� ũ�� 16X11mm²�� Ͽ�� ȣ ��۽� �� Է� VSWR 2.5:1�� Ư�� . �� TRS �ܸ�� Ư�� Ư�� .

PCS�� MIC ȥ�ձ� ��

�迵��, ��, ��, ��뱸, ��

Abstract

�� PCS ��ļ� �뿪(RF Freq. : 1700-1900MHz) �� ȥ�ձ⸦ ��Ʈ ȥ�ձ�� Ͽ� MIC�� Ͽ��. RF ��ļ�� 1700MHZ�� 1900MHz�� ȭ�� ȯ�̵�� 6.1dB�� ְ� 8.3dB�� 5.76dB�� ְ� 7.23dB�� . �� RF�� Է� �ݻ� �� -13dB�� LO�ܰ� RF�� ݸ�� -38dB, LO�ܰ� IF�� ݸ�� -24dB�� . �׸�� ͼ� ��ü ȸ�ο�� Ҹ�Ǵ� �� 6mA�̰� �巹�� 3.6V�̴�.

��̾ ȿ�� ϴ� GaAs MESFET�� ο� �� ä�� 

��¹�, �迵��, �迵��, ��, ��

Abstract

A new channel current model of GaAs MESFET suitable for applications to microwave CAD has been developed. The current model includes the bias-dependent frequency dispersion effects and its parameters are extracted from the pulsed I-V measurements at several quiescent bias points. The model is verified by applying to the nonlinear circuit design of power amplifier and MMIC mixer.

�޴�� PCS �ܸ��⸦ �� 

��¹�, �ѱ�õ, �迵��, ��, ��

Abstract

��ȿ�� 䱸�Ǵ� �޴�� PCS �ܸ��⸦ �� Ͽ��. �ý�� 䱸 �� ų �� ִ� �ɵ� ��(MESFET)�� ϰ� �� ȣ ��� Ͽ� �� Ͽ��. �� ļ� 1750~1780MHZ�� ϴ� �� ڿ�� 2�� Ͽ��. �� ڿ� �� 巹�� ̾ 3.6V �Ͽ�� 23.2dBm, ȿ�� 34%, �̵� 22.2dB�� IMD₃ 31dBc�� Ư�� , �� ̵�� 巹�� ̾ 4.2V �Ͽ�� 27.2dBm, ȿ�� 33%, �̵� 21.3dB�� IMD₃ 31dBc�� Ư�� ־��. �� PCS �ܸ�� 䱸 �� Ű�� Ư�� .

GaAs FET�� parasitic components�� ʰ�� ̵濡 ��ġ�� 

��, ��

Abstract

Parasitic elements of a GaAs FET are very important factor to determine the power gain of a FET at high frequencies. Numerical simulation shows that the frequency range of unstable region(K<1) of a fet decreases as the gate>

X-band 3�� 

��ο�, ��, ��ȫ, ��, ��

Abstract

3-stage low noise amplifier is designed in X-band and fabricated on Duroid substrate(er=10.8, h=25mil). The experimental results show that gain is 30.5+-0.5dB and noise figure is 1.2+-0.1dB across 0.5-10.5GHz band. Circuit size is relatively small, 23mmX8mm. Thus, This amplifier is suitable for integrated receiver module.

X-band�� ۼ�� 

��¹�, ��, ��ο�, ��ȫ, ��, ��

Abstract

Transmit/receive(T/R) module for X-band phase array radar system has been developed. It includes power amplifier, low noise amplifier, phase shifter and SPDT switches. HEMT, power MESFET and PIN diode are used as active elements and Duroid substrate(e=10.8, h=25mil) are used for microwave integrated circuits. The measured results dor T/R module show that output power is 23.5dBm, transmission gain is 4.0dB, reception noise figure is 2.5dB, reception gain is 21dB and maximum phase error is 6.0^o across 9.75GHz-10.25GHz band.

AlGaAs/GaAs SABM HBT�� Ư��

��ؿ�, �迵��, ��ƶ�, ��, ��ȣ, ��

Abstract

AlGaAs/GaAs HBTs have been fabricated using SABM process technology. The 2umX10um HBT showed a common emitter current gain of 10 at a collector current density of Jk=100kA/cm² and breakdown voltage BV_CEO of 8V. The small signal HBT equivalent circuit was extracted by using the on-wafer S-parameter data analysis and MDS optimization. Current gain cut-off frequency of ft=30GHz and maximum oscillation frequency of fmax=23GHz were obtained at a collector current density of Jc=70kA/cm². The fabricated device is useful for high speed and power application.

MMIC Distributed Active Balun�� 

��ȫ, ��, ��

Abstract

We have designed a new distributed active balun using ETRI GaAs Microwave Foundary Library. The simulated results show 3.5dB gain in frequency range 30MHz-3GHz. The advantages of new balun are a broadband flat gain performance and small size in comparison with conventional passive balun.

�� Ʈ�� ȣ ���

��ƶ�, ��, ��

Abstract

A new approach to large-signal modeling of high power AlGaAs/GaAs HBT has been proposed. This model includes a thermal equivalent circuit to consider self-heating effects. We have shown that this model is in an excellent agreement with measured data over a wide range of operating biases and signal frequencies.

��뿪 MMIC ��̵� ��

��, ��ȫ, ��

Abstract

We have designed a new broadband MMIC variable gain amplifier using ETRI GaAs Microwave Foundary Library. The amplifier employs cascode amplifier with negative feedback to achieve wide gain control range and good linearity. The designed results show more than 40dB gain control in the broad frequency range of 0.1-4.0GHz.

Low Current GaAs MMIC Down Conversion Mixer for Cellular Telephone Receivers

Jae Hong Kim, In Woo Park and Bum Man Kim

Abstract

A low current GaAs MMIC down conversion mixer has been designed for cellular band applications. The mixer exhibits conversion gain of 6~9 dB with a small LO power of -5 dBm. Total current disspation of the mixer is less than 5 mA with 5V drain bias voltage.

GaAs MMIC Foundary�� ̿�� BS Tuner ��

�迵��, ��ο�, ��, �̿��, ��, ��, ��, ��

Abstract

A BS Tuner IC for DBS receiver has been designed using KUKJE GaAs Foundary Library. Its mixer adopts common gate configuration to achieve easy of input impedance matching and good isolation between two input signals. The VCO operates from 1.4GHz to 2.5GHz(oscillation frequency) with varactor tuning voltage raging from 5V to 28V. The IC delivers a conversion gain of more than 6dB from 950MHz to 2GHz satellite for the extended satellite TV band application under a single 5V supply voltage.

SABM �� ߵ� X-band AlGaAs/GaAs HBTs

��ؿ�, ��, ��, ��, ��, ��ȭâ, ��, ��

Abstract

�ڱ� �� ̽� �� AlGaAs/GaAs HBTs�� Ͽ��. �ڱ� �� Ű�� Ͽ� ũ�� ݼ� �� ǽ� �İ� ��ũ�� ϴ� �� intrinsic �� ٷ� �� ϴ� �� Ͽ� HBT�� DC/RF �� Ư�� ũ�� ״�. ��۵� HBT�� 20~40�� ̵�� 30V �� 14V�� ÷�� ̽�� ׺�� Ÿ�� ̽�� ÷�� ̻�� 1.10~1.45�� 1.02~1.17�� ſ� ��Ͽ��. On-wafer S-parameter ��κ�� 3umX20um �� ũ�� HBT�� #19394 �� Jc=40kA/cm²�� е�� ft=41GHz, fmax=51GHz�� #19294 ��ڿ�� Jc=60kA/cm²�� е�� ft=63GHz, fmax=45GHz�� .

HBT�� intermodulation �� ȿ��

��, ��ؿ�, �迵��, ��

Abstract

This paper examines cancellation effects of intermodulation components generated by nonlinear elements of heterojunction bipolar transistors(HBT's). We have calculated the third order intercept point(IP3) using Volterra Series analysis technique. The simulation shows that the output current distortion components generated by the emitter current source and those generated by the collector current source cancel each other almost exactly.

��̴� �ۼ�� X-band 14W �� 

��ؿ� , ��¹�, ��

Abstract

This paper shows the design and testing of X-band(8.9-9.5GHz) SSPA which is useful for radar transmitter/receiver module. The SSPA consists of 5 stages; the first 2stages were of it was designed by harmonic balancing method and the other stages were designed by load-pull method. Wilkinson power combiner/devider was used for last stage. We got the SSPA output characteristics from measurement as below. The SSPA has 32dB gain, over 41.5dBm output power and about 21% power added effiency.

AlGaAs Emitter Depletion Ledge�� ̿�� HBT�� Base ǥ�� 

��, ��ȣ, ��ؿ�, �κ��, ��μ�, ��, �ڰ漮, ��

Abstract

In AlGaAs/GaAs HBT, base current consists of bulk current and surface current. Current gain of HBT can be improved by reductin of surface current. Surface recombination current occurs at the extrinsic surface of base and the surface current can be reduced using depleted AlGaAs layer passivation technique. We efficiently reduce the surface current by a factor of 1/2.78~1/5 using the passivation technique, thereby improving current gain by a large amount.

AlGaAs/GaAs �� Ʈ�� 

��ȣ, ��, ��ؿ�, ��, ��μ�, ��

Abstract

We have investigated the low-frequency noise characteristic of AlGaAs/GaAs heterojunction bipolar transistors(HBT's) with different emitter-base(E-B) structure and surface passivation technique. It is shown that the use of electrically abrupt E-B junction can greatly reduce the extrinsic GaAs base surface recombination current which is the dominant low-frequency noise source in HBT's. The noise corner frequency of the abrupt HBT without surface passivation is about 9 kHz, which is comparable to that of Si BJT. At the same collector current density at f=10Hz, the HBT with abrupt E-B junction has about 15dB lower 1/f noise level than HBT with graded E-B junction. This clearly demonstrates the effectiveness of using an electrically abrupt E-B junction for reducing the 1/f noise of HBT. By applying a ledge passivation, we can further reduce 1/f noise of abrupt HBT by 2~5dB. For the passivated HBT, the noise corner frequency is reduced to 3kHz. The surface recombination noise is no longer a dominant noise source for the passivated HBT and the device noise characteristics are a lot more repeatable.

AlGaAs/GaAs HBT�� Surface Recombination�� ̵�� Frequency Dispersion

�κ��, ��ؿ�, ��¹�, �迵��, ��

Abstract

We studied the surface rcombination related frequency dispersion of current gain in AlGaAs/GaAs HBTs for the first time. If the measurement frequency is higher than the characteristic frequency(fo) of the surface-states, surface-state occupancy will be unable to follow the signal, and, therefore, the surface recombination current component will be vanished. The surface recombination current-to-total base current ratio (delta(ib)^s/delta(ib)) is about 0.47 below 100 MHz (A_E=300X20um²), and the transition frequency is between 100 MHz and 3 GHz. Above 3 GHz, the ratio is zero. These results indicate that the current gain of HBT is dispesive. This effect must be included in HBT equivalent circuit model.

MESFET ä�� ޽� I-V �ý��

��¹�, �迵��, ��, ��, ��

Abstract

A new pulse I-V measurement set-up to determine the channel current of microwave MESFETs is described. This set-up is capable of I-V measurement using pulsewidth of 500 nanoseconds under actual bias. In the two-tone test, the simulation results with a large-signal MESFET model using the channel current data have been found to be in good agreement with the measured data.

AlGaAs/GaAs SABM �� Ʈ�� Ư��

��, ��ؿ�, ��ȣ, ��μ�, �迵��, ��

Abstract

The minimum noise figures of SABM HBTs were measured. The fabricated HBTs showed excellent noise performances. Under low dc bias of 2V(Vce) and 0.8mA(Ic), the 4umX10um emitter size HBT showed a minimum noise figure(NFmin) of 0.9dB with associated gain(Gass) of 16.45dB at 2.5GHz. It correspondsto a figure of merit Gain/(Fmin*Pdc) ratio of 11.4[1/mW]. This high performance obtained from these HBTs at very low dc bias makes them very attractive for prtable wireless communication low noise amplifiers.

900MHz�� ޴�� MMIC ȥ�ձ�� 

�迵��, ��, ��, ��

Abstract

This paper describes a GaAs monolithic microwave integrated cicuit(MMIC) series-connected FET active mixer(cascode mixer) at 900MHz Cellular-band that is designed for portable telecommunication applications using LG MMIC Foundary. From 869MHz to 894MHz (RF frequency) this mixer performs as follows: conversion gain is between 2dB and 3.5dB with an LO power of 0dBm, isolation between LO and RF ports is better than 30dB,TOI(Third Order Intercept) is better than 30dBc. The circuit was manufactured using a 0.5um GaAs MESFET process without substrate-through viaholes. Total chip size is 1.2mmX2mm.

6-18GHz �뿪 MMIC 1W �� 

��, ��ؿ�, ��¹�, ��

Abstract

This paper describes a GaAs mmonolithic microwave integrated circuit(MMIC) 1watt power amplifier design at 6-18GHz. It is designed for broadband signal conversion sing Ratheon Library. From 6GHz to 18GHz band, the simulation result shows that output power is 29.4dBm-31.4dBm, efficiency is better than 10%, gain is better than 15dB, flatness is also better than 10% except at mid band region. The circuit was laid out using 0.25um GaAs MESFET process with substrate-through viaholes. Total chip size is 3.5mmX6.5mm.

HBT ��ȣ �𵨸�

�迵��, ��, ��

Abstract

A large signal model of 2X3umX20um AlGaAs/GaAs HBT including self heating effect is developed. In this model, hybrid-pi configuration is used to extract ac parameters through the optimization of S-parameters measured at various bias conditions. Thermal parameters are extracted from pulsed I-V and temperature dependent forward gummel data. The model proposed showed a good agreement with measured data and model data even at a low current level.

��ȿ�� 3W�� TRS �ܸ�� 

��¹�, �ڻ��, ��, ��, ��

Abstract

A high-efficient power amplifier module has been developed for TRS cellular phone. It is fabricated in a hybrid integrated circuit using thin film process. To improve thermal property, an alumina substrate was utilized. At the operating frequency range of 719-734 MHz with the output power of 34.5 dBm and Vdd=7.2V, the power added efficiency and the large signal gain were 58% and 28.5 dB, respectively, and the harmonic powers were below -40 dBc. In comparison with other modules using MOSFETs and BJTs, the size of the module is small (16X11 mm²) and the efficiency and gain are higher. This power amplfier module is suitable for TRS cellular application.

PCS �޴�ܸ�� 

��¹�, �ڻ��, �̽��, ��, ��

Abstract

A linear power amplifier module has been developed for PCS handy phone. It os fabricated in a hybrid integrated cicuit using thin film process. To iprove thermal property and circuit accuracy, an alumina substrate was utilized. The module is two stage topology using OKI GaAs MESFETs. At the operation frequency range of 1750 - 1780MHz with the output power of 27.22dBm and Vdd=4.2V, the 3rd order intermodulation distortion and power-added efficiency were -31dBc and 33%, respectively. In this condition, the large signal gain and harmonic power were 21dB and below -26dBc, respectively. This linear pwer amplifier module is suitable for PCS handy phone.

�� Ʃ�ʿ� MMIC ȥ�ձ�� 

�迵��, ��°�, ��, ��

Abstract

A series-connected FET active mixer(cascode mixer)that is designed for BS(broad satellite) tuner using Kukje GaAs MMIC Foundary. The active FET model parameters are extracted from the pulsed I-V measurement at quiescent bias points. This model includes the frequency dispersion effects due to traps. The mixer has a conversion gain 7.53-10.8dB over the frequency from 950 to 2050MHz. Isolation is better than 26dB between LO and RF ports. Total current dissipation of the MMIC chip is less than 7mA with 3V drain bias voltages and total chip size is 1.2mmX1.8mm

��պ� �µ� ȿ�� AlGaAs/GaAs HBT�� ȣ �� 𵨸�

��, �迵��, ��¹�, ��

Abstract

AlGaAs/GaAs HBT�� 𵨰� �̿� �� ȸ�� Ķ��͸� ��ϴ� �� Ѵ�. �� ǥ��ϱ� �� 9�� Ķ��͸� �� ִ�. �̵� �Ķ��Ϳ� ��  �� ʿ�ġ �� Ѵ�. �� ϴ� Gummel-Plot�� ʰ� �� DC-IV ��� ̿��Ѵ�. �� ǹ��ִ� �Ķ��ͷ� ǥ�õǸ� �� DC-IV ��� Ѵ�.

X-�� 5-bit �� 

�ѱ�õ, ��, ��, ��

Abstract

A microwave hybrid PIN diode phase shifter at 8.9-9.2 GHz frequency band is designed, fabricated and rf-tested. A loaded line type is used for the 11.25 degree, 22.5 degree, and 45 degree bits and a switched line type for the 90 degree and 180 dgree bits. The measured results show that the phase error and average insertion loss are less than +-2 degree and 4.3dB respectively. and

�� PCS�� ׼��ļ� ȥ�ձ�

��, ��

Abstract

A resistive mixer is designed and realized for PCS application. Conversion gain is 5dBm and NF is 3.5dB at LO power 4dBm. It shows high linearity and power handling capability. RF input 1dB compression point was -5.5dBm and two-tone IIP3 was 4.6dBm. LO to RF, LO to IF isolations are more than 40dB at the frequency band.

�� AlGaAs/GaAs �� Ʈ��͸� �̿�� 2GHz VCO

��, ��ȣ, ��, ��, ��ö, ��

Abstract

A low phase noise voltage controlled oscillator(VCO) based on HBT was realized. The HBT's were optimized for low 1/f noise characteristics using the ledge passivation technique. Large signal model including bias-dependent 1/f noise sources have been extracted. Using the model, VCO was designed and realized. The center frequency of the VCO was 2GHz and the sweep range was 700MHz. The phase noise was about -109dBc/Hz at 100kHz offset.

AlGaAs/GaAs HBT�� High Frequency Noise Sources �м�

��μ�, ��

Abstract

AlGaAs/GaAs HBT�� noise source�� Fmin�� ġ�� Hawkin's model�� ̿��Ͽ� �м��Ͽ��. Fmin�� м� �� HBT�� dominant source�� base current and collector current shot noise sources�̾��. HBT�� output noise ũ��Ӹ� �ƴ϶� �� ȭ �� shot noise sources�� Ͽ� ��Ǿ��. Shot noise sources �� correlation�� noise modeling�� ݵ�� Ǿ�� ϸ�, correlation�� shot noise sources�� cancellation�� Ͽ� �� Fmin�� ȭ�� Fmin�� ּҰ� �Ǵ� �� ȴ�. Base �� thermal noise�� ⿩�ϴ� �ͺ��ٵ� shot noise sources�� Ͽ� output noise�� Ư�� ڰ� �ϴ� �� ־��.

��̴� �ۼ�� 10W �� 

��ؿ�, ��

Abstract

�� 뿪�� X-band�� ̴� �ۼ�� ⿡ ��̴� ��⸦ ��, ��Ͽ��. �� ü 4�� Ǿ� ��, ��±��ܰ� �� , ��Ͽ��. ��±�� 2�� ۵Ǿ��, �� 1W, ��̵� 10dB�� Ư�� . �� 2�� , ��۵Ǿ��, �� 10W �̻�, �� ̵� 10dB��.

X-band 5bit ��Ż �� 

�ѱ�õ, ��

Abstract

�� ̴� �ۼ�� ⿡ ��Ǵ� 5bit �� ⸦ ��Ͽ��. 8.9GHz~9.5GHz�� ļ� �뿪�� Alumina�� Micropen�� Ͽ� ��۵Ǿ�� PIN*HPND-4028) Diode�� Ͽ��. 11.25 degree, 22.5 dgree, 45 degree�� ϼ�� Ͽ�� 90 degree, 180 degree�� Ͽ� ��Ͽ��. ��۵� ��ü 5bit �� ũ�� 1.2X5 cm²�̰� �� +-3 degree �̸�, ��ü ��Լս�� 4dB�̸�, �� 15dB �� .

DBS Tuner�� Down Converter

��, �迵��, ��, ��, ��

Abstract

We have made an MESFET MMIC down converter for DBS tuner application. It covers 0.91GHz~1.83GHz band and shows more than 8.33dB conversion gain. LO SSB phase noise is -71dBc at 10kHz offset. OIP3 is 9.8dBm.

RF Frequency�� MOSFET Modeling

�躴��, ��, �ڼ�ȣ, �̿��

Abstract

We have made a RF frequency band MOSFET model based on BSIM3v3. This model can accurately express Vds-Ids curve and Vgs-Ids curve at the same time. And small signal parameter can be predicted using this model.

MESFET ä�� 𵨸�

��, �迵��, �翵��, ��, ��

Abstract

The nonlinear componenets of MESFET channel currnent were modeled by extracting high order Talyor series coefficients. MESFET channel current can be expanded in a Taylor seried including high order terms which represent nonlinearity. We used low frequency, about 60 MHz, two tone signal as source signal to MESFET and measured hamornic components of output power. From this measurements, we extracted Taylor series coefficients up to 3rd order using Volterra analysis. Extracted coefficients of channel current model were compared with those of Pedro's channel current model showing small differences.