Device Overview

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General Description

MM1-0330T is a GaAs MMIC double balanced mixer that features excellent conversion loss, superior isolations, and spurious performance across a broad bandwidth. The MM1-0330T works well as both an up and down converter through the K band and beyond. The MM1-0330T is recommended for frequency conversion applications that require high linearity. It is available as both wire bondable die and as a connectorized module.

Photo of MM1-0330TCH-2

Features

  • High LO to RF isolation
  • Up or down conversion
  • Broadband, high linearity frequency conversion

Applications

  • Test and Measurement Equipment
  • SATCOM
  • Electronic Warfare
  • Radar

Functional Block Diagram

Block Diagram

Part Ordering Options

Part NumberDescriptionPackageConnectorsGreen StatusProduct LifecycleExport Classification
MM1-0330TSGaAs MMIC Double Balanced MixerSStandard

REACH

RoHS

ReleasedEAR99
MM1-0330TCH-2GaAs MMIC Double Balanced MixerCH-

REACH

RoHS

ReleasedEAR99

Table Of Contents

Revision History

Revision CodeRevision DateComment
-2021-09-01Datasheet Initial Release
A2022-10-01CL and IP3 at 1W LO Drive

Rev: A | Copyright © 2021 - 2022 Marki Microwave LLC.

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Port Configuration and Functions

Port Diagram

A top-down view of the MM1-0330T’s CH package outline drawing is shown below. The MM1-0330T has the input and output ports given in Port Functions. The MM1-0330T can be used in either an up or down conversion. For configuration A, input the LO into port 1, use port 3 for the RF, and port 2 for the IF. For configuration B, input the LO into port 3, use port 1 for the RF, and port 2 for the IF.

Diagram of the port configuration for MM1-0330TCH-2

Port Functions

Configuration A

PortFunctionDescriptionDC Equivalent
Circuit
GNDGround CH package ground path is provided through the substrate and ground bond pads. Equivalent circuit for the Ground
Port 1LO Port 1 is DC short for the CH and S packages.Equivalent circuit for the LO
Port 2IF Port 2 is diode connected for the CH and S package.Equivalent circuit for the IF
Port 3RF Port 3 is DC short for the CH and S packages.Equivalent circuit for the RF

Rev: A | Copyright © 2021 - 2022 Marki Microwave LLC.

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Configuration B

PortFunctionDescriptionDC Equivalent
Circuit
GNDGround CH package ground path is provided through the substrate and ground bond pads. Equivalent circuit for the Ground
Port 1RF Port 1 is DC short for the CH and S packages.Equivalent circuit for the RF
Port 2IF Port 2 is diode connected for the CH and S package.Equivalent circuit for the IF
Port 3LO Port 3 is DC short for the CH and S packages.Equivalent circuit for the LO

Rev: A | Copyright © 2021 - 2022 Marki Microwave LLC.

4

Specifications

Absolute Maximum Ratings

The Absolute Maximum Ratings indicate limits beyond which damage may occur to the device. If these limits are exceeded, the device may be inoperable or have a reduced lifetime.

ParameterMaximum RatingUnit
Maximum Operating Temperature 100°C
Maximum Storage Temperature 125°C
Minimum Operating Temperature -55°C
Minimum Storage Temperature -65°C
Port 1 DC Current 30mA
Port 2 DC Current 30mA
Port 3 DC Current 30mA
Power Handling, at any Port 33dBm

Package Information

ParameterDetailsRating
ESD250 to < 500 VoltsHBM Class 1A
Dimensions-1.38 x 1.17 mm

The Recommended Operating Conditions indicate the limits, inside which the device should be operated, to guarantee the performance given in Electrical Specifications Operating outside these limits may not necessarily cause damage to the device, but the performance may degrade outside the limits of the electrical specifications. For limits, above which damage may occur, see Absolute Maximum Ratings.

ParameterMinNominalMaxUnit
Ambient Temperature -5525100°C
LO Input Power 20-27dBm

Rev: A | Copyright © 2021 - 2022 Marki Microwave LLC.

5

Electrical Specifications

The electrical specifications apply at TA=+25°C in a 50Ω system. Typical data shown is for the connectorized S package mixer used in the forward direction with a +23 dBm sine wave input using an ADM3-0022PA-H up to 25GHz and a saturated AMM-6702UC above 25GHz . Min and Max limits apply only to our connectorized units and are guaranteed at TA=+25°C. All bare die are 100% DC tested and visually inspected.

ParameterPort ConfigurationTest ConditionsMinTypMaxUnit
Conversion Loss 1ARF/LO = 3 – 30 GHz
I = 0.2 – 5 GHz
-9-dB
Conversion Loss 2ARF/LO = 3 - 30 GHz
I = DC - 0.2 GHz
-715dB
Input IP3 ARF/LO = 3 - 30 GHz
I = DC - 0.2 GHz
-32-dBm
Input P1dB A--15-dBm
Conversion Loss 3BRF/LO = 3 – 30 GHz
I = 0.2 – 5 GHz
-11-dB
Conversion Loss 4BRF/LO = 3 - 30 GHz
I = DC - 0.2 GHz
-915dB
Input IP3 BRF/LO = 3 - 30 GHz
I = DC - 0.2 GHz
-32-dBm
Input P1dB B--15-dBm
IF Frequency Range --0-5GHz
LO Frequency Range --3-30GHz
LO-IF Isolation -IF/LO = 3 - 30 GHz
-40-dB
LO-RF Isolation -RF/LO = 3 - 30 GHz
-50-dB
Noise Figure 5-RF/LO = 3 - 30 GHz
I = DC - 0.2 GHz
-7.5-dB
RF Frequency Range --3-30GHz
RF-IF Isolation -RF/IF = 3 - 30 GHz
-40-dB

[1][2][3][4] Measured as a down converter to a fixed 91MHz IF.

[5] Mixer Noise Figure typically measures within 0.5 dB of conversion loss for IF frequencies greater than 5 MHz.

Rev: A | Copyright © 2021 - 2022 Marki Microwave LLC.

6

Discontinuity in measurements at 25GHz is due to the two LO driver amplifiers used. When the LO is above 25GHz, the LO power drops below the typical +23dBm.

Typical Performance Plots

Conversion Loss (dB) graph for MM1-0330TCH-2
Overdriven Conversion Loss (dB) graph for MM1-0330TCH-2
Conversion Loss vs LO Power, Config A (dB) graph for MM1-0330TCH-2
Conversion Loss vs LO Power, Config B (dB) graph for MM1-0330TCH-2
Relative IF Response (dB) graph for MM1-0330TCH-2
Relative IF Response (dB) graph for MM1-0330TCH-2
LO to RF Isolation (dB) graph for MM1-0330TCH-2
LO to IF Isolation (dB) graph for MM1-0330TCH-2

Rev: A | Copyright © 2021 - 2022 Marki Microwave LLC.

7

RF to IF Isolation (dB) graph for MM1-0330TCH-2
LO Return Loss (dB) graph for MM1-0330TCH-2
RF Return Loss (dB) graph for MM1-0330TCH-2
IF Return Loss (dB) graph for MM1-0330TCH-2
IF Return Loss (dB) graph for MM1-0330TCH-2

Rev: A | Copyright © 2021 - 2022 Marki Microwave LLC.

8

Typical Performance Plots: IP3

IIP3 (dBm) graph for MM1-0330TCH-2
OIP3 (dBm) graph for MM1-0330TCH-2
Configuration A IIP3 vs LO Power (dBm) graph for MM1-0330TCH-2
Configuration A OIP3 vs LO Power (dBm) graph for MM1-0330TCH-2
Configuration B IIP3 vs LO Power (dBm) graph for MM1-0330TCH-2
Configuration B OIP3 vs LO Power (dBm) graph for MM1-0330TCH-2
Overdriven IIP3 (dBm) graph for MM1-0330TCH-2
Overdriven OIP3 (dBm) graph for MM1-0330TCH-2

Rev: A | Copyright © 2021 - 2022 Marki Microwave LLC.

9

Typical Performance Plots: LO Harmonic Isolation

Even LO Harmonic to RF Isolation (dB) graph for MM1-0330TCH-2
Even LO Harmonic to IF Isolation (dB) graph for MM1-0330TCH-2
Odd LO Harmonic to RF Isolation (dB) graph for MM1-0330TCH-2
Odd LO Harmonic to IF Isolation (dB) graph for MM1-0330TCH-2
2RF x 2LO Spurious Suppression (dBc) graph for MM1-0330TCH-2
2IF x 1LO Spurious Suppression (dBc) graph for MM1-0330TCH-2

Rev: A | Copyright © 2021 - 2022 Marki Microwave LLC.

10

MM1-0330TS - Typical Performance Plots

Performance plots for the connectorized module are shown for measurements where directly probed measurements of the die are unavailable. Note that the following measurements include losses from connectors and microstrip traces.

Conversion Loss (dB) graph for MM1-0330TS
Overdriven Conversion Loss (dB) graph for MM1-0330TS
Conversion Loss vs LO Power, Config A (dB) graph for MM1-0330TS
Conversion Loss vs LO Power, Config B (dB) graph for MM1-0330TS
Relative IF Response (dB) graph for MM1-0330TS
Relative IF Response (dB) graph for MM1-0330TS
LO to RF Isolation (dB) graph for MM1-0330TS
LO to IF Isolation (dB) graph for MM1-0330TS

Rev: A | Copyright © 2021 - 2022 Marki Microwave LLC.

11

RF to IF Isolation (dB) graph for MM1-0330TS
LO Return Loss (dB) graph for MM1-0330TS
RF Return Loss (dB) graph for MM1-0330TS
IF Return Loss (dB) graph for MM1-0330TS
IF Return Loss (dB) graph for MM1-0330TS

Rev: A | Copyright © 2021 - 2022 Marki Microwave LLC.

12

MM1-0330TS - Typical Performance Plots: IP3

Performance plots for the connectorized module are shown for measurements where directly probed measurements of the die are unavailable. Note that the following measurements include losses from connectors and microstrip traces.

IIP3 (dBm) graph for MM1-0330TS
OIP3 (dBm) graph for MM1-0330TS
Configuration A IIP3 vs LO Power (dBm) graph for MM1-0330TS
Configuration A OIP3 vs LO Power (dBm) graph for MM1-0330TS
Configuration B IIP3 vs LO Power (dBm) graph for MM1-0330TS
Configuration B OIP3 vs LO Power (dBm) graph for MM1-0330TS
Overdriven IIP3 (dBm) graph for MM1-0330TS
Overdriven OIP3 (dBm) graph for MM1-0330TS

Rev: A | Copyright © 2021 - 2022 Marki Microwave LLC.

13

MM1-0330TS - Typical Performance Plots: LO Harmonic Isolation

**Due to difficulty generating a clean swept LO tone at +23dBm, plots of LO Harmonic Isolation are taken at a reduced power level. Performance at +23dBm LO will show improvement

Performance plots for the connectorized module are shown for measurements where directly probed measurements of the die are unavailable. Note that the following measurements include losses from connectors and microstrip traces.

Even LO Harmonic to RF Isolation (dB) graph for MM1-0330TS
Even LO Harmonic to IF Isolation (dB) graph for MM1-0330TS
Odd LO Harmonic to RF Isolation (dB) graph for MM1-0330TS
Odd LO Harmonic to IF Isolation (dB) graph for MM1-0330TS
2RF x 2LO Spurious Suppression (dBc) graph for MM1-0330TS
2IF x 1LO Spurious Suppression (dBc) graph for MM1-0330TS

Rev: A | Copyright © 2021 - 2022 Marki Microwave LLC.

14

Mechanical Data

Outline Drawing

Outline Drawing

Rev: A | Copyright © 2021 - 2022 Marki Microwave LLC.

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