DC489A-A datasheet, PDF - EEWORLD Datasheet

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DC489A-A: Descriptionseries 功率检测器 For Use With LTC5507; CategoryTopical application Wireless rf/communication; File Size92KB，2 Pages; ManufacturerADI; Websitehttps://www.analog.com; Environmental Compliance

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DC489A-A Overview

series 功率检测器 For Use With LTC5507

DC489A-A Parametric

Parameter Name	Attribute value
category
Maker	ADI
series	-
Package	box
\u96F6\u4EF6\u72B6\u6001	\u5728\u552E
type	Power detector
frequency	100kHz ~ 1GHz
Supporting use/related products	LTC5507
What's included	plate
Basic product number	DC489A

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August 2, 2002

DC489A DEMO BOARD QUICK START GUIDE

INTRODUCTION

The DC489A demo board is used to evaluate the LTC5507 RF power detector with integrated output

buffer and voltage reference. The LTC5507 converts an RF input signal at pin 6 (RF) to a DC voltage at

pin 3 (Vout). The RF input frequency range is 100 KHz to 1000 MHz. The maximum input power is 16

dBm. The DC output voltage at Vout with no RF signal present at the input is typically 260mV. When

the RF signal is applied, the DC output voltage increases proportionately.

The optional 68Ω (R1) termination resistor is not placed on the PCB. Capacitors C1 and C4 are 0.1

µF

for low frequency tests and evaluation (100 KHz to 1 MHz). For higher frequencies, C1 and C4 should

be .01

µF

or less. For frequencies around 800 to 1000 MHz, a 39 pF value is suggested.

A logic HIGH at pin 1 of jumper JP1 enables the part. The jumper inserted in the left position provides

logic HIGH (IC enabled). The jumper inserted in the right position provides logic LOW (IC disabled).

The DC489A demo board is easily set up for evaluating the LTC5507 RF power detector performance.

Follow the procedures outlined below and make the connections on the attached diagram for proper

operation.

Connect a positive DC power supply (2.7V to 6V) to E1. Connect the power supply ground to E3 or

E5. Connect J1 to the RF signal generator via coaxial cable with an SMA connector. It is common

practice to include a 3dB pad to minimize reflections back into the signal generator.

The part can be shutdown via switch JP1. When JP1 is connected to ground, the part will be in

shutdown. When JP1 is connected to VCC via the 22k resistor the part will be enabled. A pulse

generator can also control the shutdown terminal, E4, in order to characterize turn-on delay after

shutdown. To do this, set JP1 to the enable position. Connect a 50Ω termination from E4 to ground.

Connect a pulse generator to E4 via a coaxial cable.

With JP1 set to the enable position, apply an RF input signal and measure the DC output voltage at

E2.

LTC CONFIDENTIAL

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