MAX19993EVKIT# Maxim Integrated Products, MAX19993EVKIT# Datasheet - Page 20

MAX19993EVKIT#

Manufacturer Part Number

MAX19993EVKIT#

Description

Power Management Modules & Development Tools MAX19993 EVAL KIT MAX19993 EVAL KIT

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX19993ETX.pdf (23 pages)

Specifications of MAX19993EVKIT#

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Dual, SiGe, High-Linearity, 1200MHz to 1700MHz

Downconversion Mixer with LO Buffer/Switch

The RF and LO inputs are internally matched to 50I.

No matching components are required. The RF port

input return loss is typically better than 19dB over the

1400MHz to 1700MHz RF frequency range and return

loss at the LO ports are typically better than 15dB over

the entire LO range. RF and LO inputs require only

DC-blocking capacitors for interfacing.

The IF output impedance is 200I (differential). For

evaluation, an external low-loss 4:1 (impedance ratio)

balun transforms this impedance to a 50I single-ended

output. See the Typical Application Circuit.

Each channel of the device has two pins (LO_ADJ_D/

LO_ADJ_M, IFD_SET/IFM_SET) that allow external

resistors to set the internal bias currents. Nominal values

for these resistors are given in Table 1. Larger value

resistors can be used to reduce power dissipation at the

expense of some performance loss. If Q1% resistors are

not readily available, substitute with Q5% resistors.

Significant reductions in power consumption can also

be realized by operating the mixer with an optional 3.3V

supply voltage. Doing so reduces the overall power

consumption by approximately 46%. See the 3.3V Supply

DC Electrical Characteristics table and the relevant 3.3V

curves in the Typical Operating Characteristics section.

The default application circuit calls for connecting

IND_EXT_ (pins 15 and 31) to ground through a 0I

resistor (0603) as close as possible to the pin. For

improved RF-to-IF and LO-to-IF isolation, contact the

factory for details.

Applications Information

Input and Output Matching

Reduced-Power Mode

IND_EXT_ Inductors

A properly designed PCB is an essential part of any

RF/microwave circuit. Keep RF signal lines as short as

possible to reduce losses, radiation, and inductance.

The load impedance presented to the mixer must be

such that any capacitance from both IF- and IF+ to

ground does not exceed several picofarads. For the best

performance, route the ground pin traces directly to the

exposed pad under the package. The PCB exposed pad

MUST be connected to the ground plane of the PCB. It is

suggested that multiple vias be used to connect this pad

to the lower-level ground planes. This method provides a

good RF/thermal-conduction path for the device. Solder

the exposed pad on the bottom of the device package

to the PCB. The MAX19993 evaluation kit can be used

as a reference for board layout. Gerber files are available

upon request at www.maxim-ic.com.

Proper voltage-supply bypassing is essential for high-

frequency circuit stability. Bypass each V

TAPMAIN/TAPDIV with the capacitors shown in the

Typical Application Circuit. See Table 1 for component

values. Place the TAPMAIN/TAPDIV bypass capacitors

to ground within 100 mils of the pin.

The exposed pad (EP) of the MAX19993’s 36-pin TQFN-

EP package provides a low thermal-resistance path to

the die. It is important that the PCB on which the device

is mounted be designed to conduct heat from the EP. In

addition, provide the EP with a low-inductance path to

electrical ground. The EP MUST be soldered to a ground

plane on the PCB, either directly or through an array of

plated via holes.

Exposed Pad RF/Thermal Considerations

Power-Supply Bypassing

Layout Considerations

pin and

MAX19993EVKIT# Maxim Integrated Products, MAX19993EVKIT# Datasheet - Page 20

MAX19993EVKIT#

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