微波功率计

∑-△ADC技术在微波功率计中的应用

The Application of ∑ - △ ADC Technology in Microwave Power Meter

文中就微波功率计在测量微波功率时可能出现的哪些误差以及它们的性质和处理方法（有效效率ηe或校准系数Kb）做一个概括性介绍。

In this paper , these errors can creep into power measurements with microwave power meter , their character and the handling method ( effective efficiency n and calibration factor Kb ) are introduced .

微波功率计误差分析与校准系数

The Error Analysis and the Calibration Factor of Microwave Power Meter

热敏电阻式微波功率计，一直存在零点漂移大的问题。

The problem of large zero drift always exists in microwave power meters with thermistor .

目前，现有大功率微波功率计体积大，价格高，无法测量大功率脉冲微波信号的频率，并且功率、频率测量仪器相互独立。

At current , CW high power microwave power meter are huge , very expensive and cannot be used for high power pulse microwave signal measurement , and are separated .

在微波功率计标定中采用动态标定方法，有效地降低了存储器空间要求和处理器时间开销，处理器有更多的资源进行测量数据处理。

The microwave power meter adopts dynamic calibration method and reduces request of the memory space and time expenses of the processor which can have more resource to deal with the metrical data .

量热式水负载微波大功率计动态热损的补偿及其大功率计的误差分析

Compensation of Dynamic Thermal Loss and Error Analysis for Water-loading Calorimeter Type Microwave High Power Meter

微波功率传感器是微波功率计探头中的核心元件。

Microwave power sensor is the core component of microwave power meter .