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Golden Axis (Beijing) Technology Co., Ltd was founded in 2016 and is located in Beijing. We are a new high-tech company specializing in the introduction
7.1-8.8GHz Power Amplifier MMIC FEATURES
High Output Power: 33.0dBm(typ.)
High Linear Gain: 30.0dB(typ.)
Low VSWR Broad Band: 7.1~8.8GHz
Impedance Matched Zin/Zout = 50Ω
Small Hermetic Metal-Ceramic Package(VF)
FEATURES
・High Output Power: Pout=34.0dBm (MAX.)
・High Linear Gain: GL=27.0dB (typ.)
・Broad Band: 9.5~13.5GHz
・Impedance Matched Zin/Zout=50Ω
・Small Hermetic Metal-Ceramic Package(VF)
DESCRIPTION
The GA 5061VF is a MMIC amplifier that contains a three-stage amplifier,
internally matched, for standard communications band in the9.5 to13.5GHz
frequency range.
The GA29F040 is a 4-mega bit Flash memory organized as 512K bytes of 8 bits. Flash memories offer the most cost-effective and reliable read/write non volatile random access memory. The GA29F040 is packaged in 32-pin PLCC, TSOP, PDIP. It is designed to be reprogrammed and erased in system or in standard EPROM programmers. The standard GA29F040 offers access time as fast as 55ns, allowing operation of high-speed microprocessors without wait states. To eliminate bus contention, the GA29F040 has separate chip enable (CE#) and output enable (OE#) controls.
Flash memories augment EPROM functionality with incircuit electrical erasure and programming. The GA29F040 uses a command register to manage this functionality. The command register allows for 100% TTL level control inputs and fixed power supply levels during erase and programming, while maintaining maximum EPROM compatibility. Flash technology reliably stores memory con- tents even after 100,000 erase and program cycles. The cell is designed to optimize the erase and program mechanisms. In addition, the combi- nation of advanced tunnel oxide processing and low internal electric fields for erase and programming operations produces reliable cycling. The GA29F040 uses a 5.0V 10% VCC supply to per- form the High Reliability Erase and auto Program/ Erase algorithms. The highest degree of latch-up protection is achieved with proprietary non-epi process. Latch-up protection is proved for stresses up to 100 milliamps on address and data pin from -1V to VCC + 1V.
The GA29F040 is a 4-mega bit Flash memory organized as 512K bytes of 8 bits. Flash memories offer the most cost-effective and reliable read/write non volatile random access memory. The GA29F040 is packaged in 32-pin PLCC, TSOP, PDIP. It is designed to be reprogrammed and erased in system or in standard EPROM programmers. The standard GA29F040 offers access time as fast as 55ns, allowing operation of high-speed microprocessors without wait states. To eliminate bus contention, the GA29F040 has separate chip enable (CE#) and output enable (OE#) controls.
Flash memories augment EPROM functionality with incircuit electrical erasure and programming. The GA29F040 uses a command register to manage this functionality. The command register allows for 100% TTL level control inputs and fixed power supply levels during erase and programming, while maintaining maximum EPROM compatibility. Flash technology reliably stores memory con- tents even after 100,000 erase and program cycles. The cell is designed to optimize the erase and program mechanisms. In addition, the combi- nation of advanced tunnel oxide processing and low internal electric fields for erase and programming operations produces reliable cycling. The GA29F040 uses a 5.0V 10% VCC supply to per- form the High Reliability Erase and auto Program/ Erase algorithms. The highest degree of latch-up protection is achieved with proprietary non-epi process. Latch-up protection is proved for stresses up to 100 milliamps on address and data pin from -1V to VCC + 1V.
Analog to Digital Converter(ADC)
We has volume-produced high-precision analog-to-digital converters (ADC), digital-to-analog converters (DAC), and clock driver chips, all
of which have achieved industry-leading specifications. Additionally, these products are capable of seamless pin-to-pin replacements with other
advanced chip products. Our ADC and DAC products are renowned for their exceptional accuracy, low power consumption, and high speed,
meeting the diverse application requirements ranging from industrial automation to communication systems, and medical devices. These
products are meticulously designed to ensure stable and reliable performance under various harsh environments. Clock driver chips represent
another core technology of ours, providing precise timing control for high-speed data transmission and being indispensable components in many
high-performance computing and communication systems. Our clock driver chips feature low jitter, high-frequency stability, and excellent phase
noise performance, ensuring system synchronicity and overall functionality. The volume-produced MCU chips are celebrated for their high
performance, low power consumption, and extensive integrated functionalities, catering to a wide range of applications from automotive, smart
home devices to industrial automation, and IoT devices. These products are carefully engineered to deliver stable and reliable performance under
stringent environmental conditions.
The GPE9354 SPDT High Power UltraCMOS™ RF Switch is designed to cover a broad range of applications from near DC to 3000 MHz. This single-supply reflective switch integrates on-board CMOS control logic driven by a simple, single-pin CMOS and TTL compatible control input. Using a nominal +3-volt power supply, a typical input 1 dB compression point of +31 dBm can be achieved. The PE9354 also exhibits input-output isolation of better than 30 dB at 2000 MHz and is offered in a small 8-lead ceramic SOIC package.
The GPE9354 is optimized for commercial space applications. Single Event Latch up (SEL) is physically impossible and Single Event Upset (SEU) is better than 10-9 errors per bit/day. Fabricated in Peregrine’s UltraCMOS™ technology, the GPE9354 offers excellent RF performance and intrinsic radiation tolerance.
Digital to Analog Converter (DAC)
We has volume-produced high-precision analog-to-digital converters (ADC), digital-to-analog converters (DAC), and clock driver chips, all
of which have achieved industry-leading specifications. Additionally, these products are capable of seamless pin-to-pin replacements with other
advanced chip products. Our ADC and DAC products are renowned for their exceptional accuracy, low power consumption, and high speed,
meeting the diverse application requirements ranging from industrial automation to communication systems, and medical devices. These
products are meticulously designed to ensure stable and reliable performance under various harsh environments. Clock driver chips represent
another core technology of ours, providing precise timing control for high-speed data transmission and being indispensable components in many
high-performance computing and communication systems. Our clock driver chips feature low jitter, high-frequency stability, and excellent phase
noise performance, ensuring system synchronicity and overall functionality. The volume-produced MCU chips are celebrated for their high
performance, low power consumption, and extensive integrated functionalities, catering to a wide range of applications from automotive, smart
home devices to industrial automation, and IoT devices. These products are carefully engineered to deliver stable and reliable performance under
stringent environmental conditions.
Transmitting (Tx) and Receiving (Rx) Front End
We has volume-produced high-precision analog-to-digital converters (ADC), digital-to-analog converters (DAC), and clock driver chips, all
of which have achieved industry-leading specifications. Additionally, these products are capable of seamless pin-to-pin replacements with other
advanced chip products. Our ADC and DAC products are renowned for their exceptional accuracy, low power consumption, and high speed,
meeting the diverse application requirements ranging from industrial automation to communication systems, and medical devices. These
products are meticulously designed to ensure stable and reliable performance under various harsh environments. Clock driver chips represent
another core technology of ours, providing precise timing control for high-speed data transmission and being indispensable components in many
high-performance computing and communication systems. Our clock driver chips feature low jitter, high-frequency stability, and excellent phase
noise performance, ensuring system synchronicity and overall functionality. The volume-produced MCU chips are celebrated for their high
performance, low power consumption, and extensive integrated functionalities, catering to a wide range of applications from automotive, smart
home devices to industrial automation, and IoT devices. These products are carefully engineered to deliver stable and reliable performance under
stringent environmental conditions.
We has volume-produced high-precision analog-to-digital converters (ADC), digital-to-analog converters (DAC), and clock driver chips, all
of which have achieved industry-leading specifications. Additionally, these products are capable of seamless pin-to-pin replacements with other
advanced chip products. Our ADC and DAC products are renowned for their exceptional accuracy, low power consumption, and high speed,
meeting the diverse application requirements ranging from industrial automation to communication systems, and medical devices. These
products are meticulously designed to ensure stable and reliable performance under various harsh environments. Clock driver chips represent
another core technology of ours, providing precise timing control for high-speed data transmission and being indispensable components in many
high-performance computing and communication systems. Our clock driver chips feature low jitter, high-frequency stability, and excellent phase
noise performance, ensuring system synchronicity and overall functionality. The volume-produced MCU chips are celebrated for their high
performance, low power consumption, and extensive integrated functionalities, catering to a wide range of applications from automotive, smart
home devices to industrial automation, and IoT devices. These products are carefully engineered to deliver stable and reliable performance under
stringent environmental conditions.