Digital Frequency Domain Multiplexer for mm-Wavelength Telescopes

2007 15th IEEE-NPSS Real-Time Conference Pub Date : 2007-07-23 DOI:10.1109/RTC.2007.4382760

M. Dobbs, E. Bissonnette, H. Spieler

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引用次数: 24

Abstract

An FPGA based digital signal processing (DSP) system for biasing and reading out multiplexed bolometric detectors for mm-wavelength telescopes is presented. This readout system is being deployed for balloon-borne and ground based cosmology experiments with the primary goal of measuring the signature of inflation with the cosmic microwave background radiation. The system consists of analog superconducting electronics running at 250 mK and 4 K, coupled to digital room temperature backend electronics described here. The digital electronics perform the real time functionality with DSP algorithms implemented in firmware. A soft embedded processor provides all of the slow housekeeping control and communications. Each board in the system synthesizes multi-frequency combs of 8 to 32 carriers in the MHz band to bias the detectors. After the carriers have been modulated with the sky-signal by the detectors, the same boards digitize the comb directly. The carriers are mixed down to base-band and low pass filtered. The signal bandwidth of 0.050 Hz -100 Hz places extreme requirements on stability and requires powerful filtering techniques to recover the sky-signal from the MHz carriers.

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毫米波长望远镜的数字频域多路复用器

提出了一种基于FPGA的多路红外探测器偏置和读出系统。这个读数系统被用于气球载和地面的宇宙学实验，其主要目标是用宇宙微波背景辐射测量膨胀的特征。该系统由运行在250 mK和4 K的模拟超导电子元件组成，并与这里描述的数字室温后端电子元件相结合。数字电子器件通过在固件中实现的DSP算法执行实时功能。软嵌入式处理器提供了所有慢速内务控制和通信。系统中的每块板在MHz频段合成8到32个载波的多频梳来对探测器进行偏置。在探测器对载波与天空信号进行调制后，同一板直接对梳进行数字化处理。载波混合到基带并进行低通滤波。0.050 Hz -100 Hz的信号带宽对稳定性提出了极高的要求，需要强大的滤波技术才能从MHz载波中恢复天空信号。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2007 15th IEEE-NPSS Real-Time Conference

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