MAX2235EVKIT+ Maxim Integrated Products, MAX2235EVKIT+ Datasheet - Page 2

MAX2235EVKIT+

Manufacturer Part Number

MAX2235EVKIT+

Description

RF Modules & Development Tools MAX2235 EVAL KIT MAX2235 EVAL KIT

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX2235EVKIT.pdf (4 pages)

Specifications of MAX2235EVKIT+

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 2 of 4
Download datasheet (159Kb)

The MAX2235 EV kit is fully assembled and factory

tested. Follow the instructions in the Connections and

Setup section for proper device evaluation.

This section lists the recommended test equipment to

verify operation of the MAX2235. It is intended as a

guide only, and some substitutions are possible.

•

This section provides a step-by-step guide to operating

the EV kit and testing the device’s function. Do not turn

on the DC power or RF signal generators until all

connections are made.

1) Connect a DC supply set to +3.6V (through an

MAX2235 Evaluation Kit

One RF signal generator capable of delivering at

least +10dBm of output power at the operating fre-

quency (HP8648C, or equivalent)

One RF power sensor capable of handling at least

+20dBm of output power at the operating frequency

(HP8482A, or equivalent)

One RF power meter capable of measuring up to

+20dBm of output power at the operating frequency

(HP EPM-441A, or equivalent)

An RF spectrum analyzer that covers the operating

frequency range of the MAX2235 as well as a few

harmonics (HP8561E, for example)

A power supply capable of up to 1A at +2.7V to

+5.5V

An optional ammeter for measuring the supply cur-

rent

Two 50Ω SMA cables

One SMA 20dB pad

Network Analyzer (HP8753D, for example) to mea-

sure small-signal return loss and gain (optional)

ammeter if desired) to the V

on the EV kit. Do not turn on the supply.

_______________________________________________________________________________________

Test Equipment Required

Connections and Setup

and GND terminals

Quick Start

2) Connect one RF signal generator to the RFIN SMA

3) Connect a 20dB pad to the RFOUT SMA connector

4) Connect a power sensor to the 20dB pad.

5) Connect the power sensor to a power meter. Set the

6) Turn on the DC supply. The supply current should

7) Activate the RF generator’s output. The power

8) Another method for determining gain is by using a

A good PC board (PCB) is an essential part of an RF

circuit design. The EV kit PCB can serve as a guide for

laying out a board using the MAX2235. Keep traces

carrying RF signals as short as possible to minimize

radiation and insertion loss due to the PCB. Each V

node on the PCB should have its own decoupling

capacitor. This minimizes supply coupling from one

section of the IC to another. A star topology for the sup-

ply layout, in which each V

separate connection to a central V

minimize coupling between sections of the IC.

connector; do not turn on the generator’s output.

Set the generator for an output frequency of

836MHz at a power level of 0dBm.

on the EV kit. This is to prevent overloading of the

power sensor and the power meter.

power meter offset to 20dB and frequency to

836MHz.

read approximately 70mA.

meter should read approximately +30dBm. The

supply-current should increase to approximately

600mA.

Network Analyzer (optional). This has the advan-

tage of displaying gain versus a swept-frequency

band, in addition to displaying input and output

return loss. Refer to the Network Analyzer manufac-

turer’s user manual for setup details.

node on the circuit has a

Layout Issues

node, can further

MAX2235EVKIT+ Maxim Integrated Products, MAX2235EVKIT+ Datasheet - Page 2

MAX2235EVKIT+

Specifications of MAX2235EVKIT+

Related parts for MAX2235EVKIT+