Device Overview

Download PDF

General Description

The MM1A-0832HPSM is a versatile, robust, and broadband double balanced mixer with an integrated broadband LO driver amplifier. The MM1A-0832HPSM is ideal for applications with wide bandwidths and operation at mmWave frequencies. The integrated LO driver amplifier allows for operation with LO powers as low as -6 dBm while retaining exceptional conversion loss and linearity.

Photo of MM1A-0832HPSM-2

Features

RF/LO response: 8GHz - 32GHz
IF response: DC – 12GHz
Conversion Loss: 9 dB
Minimum LO drive: -6 dBm

Applications

  • Test and Measurement Equipment
  • SATCOM
  • Radar
  • 5G

Functional Block Diagram

Block Diagram

Part Ordering Options

Part NumberDescriptionPackageGreen StatusProduct LifecycleExport Classification
MM1A-0832HPSM-2Double Balanced Mixer/LO AmplifierQFN

REACH

RoHS

ReleasedEAR99
EVB-MM1A-0832HPEvaluation Board, Double Balanced Mixer/LO AmplifierEVB

REACH

RoHS

ReleasedEAR99

Table Of Contents

Revision History

Revision CodeRevision DateComment
-2022-09-01Datasheet Initial Release
A2024-09-11Updated Recommended Power Supply Voltage

Rev: A | Copyright © 2022, 2024 Marki Microwave LLC.

2

Port Configuration and Functions

Port Diagram

A top-down x-ray view of the MM1A-0832HPSM’s PSM Package outline drawing is shown below. The MM1A-0832HPSM has the input and output ports given in Port Functions.

Diagram of the port configuration for MM1A-0832HPSM-2

Rev: A | Copyright © 2022, 2024 Marki Microwave LLC.

3

Port Functions

PortFunctionDescriptionDC Equivalent
Circuit
GNDGround Ground paddle and non-connected pins must be connected to a DC/RF ground potential with high thermal and electrical conductivity, and low inductance.Equivalent circuit for the Ground
Pin 11RF Pin 11 is DC open and AC matched to 50 Ohms from 8 to 32 GHz. Blocking capacitor is optional.Equivalent circuit for the RF
Pin 16Positive DC Supply Vd3 Pin 16 provides +2.5V to +4V DC voltage to the amplifier’s third stage. Negative voltage must be supplied to Pin 5 before turning on the positive supply voltage.Equivalent circuit for the Positive DC Supply Vd3
Pin 17Positive DC Supply Vd2 Pin 17 provides +2.5V to +4V DC voltage to the amplifier’s second stage. Negative voltage must be supplied to Pin 5 before turning on the positive supply voltage.Equivalent circuit for the Positive DC Supply Vd2
Pin 18Positive DC Supply Vd1 Pin 18 provides +2.5V to +4V DC voltage to the amplifier’s first stage. Negative voltage must be supplied to Pin 5 before turning on the positive supply voltage.Equivalent circuit for the Positive DC Supply Vd1
Pin 2LO Pin 2 is the input of the integrated LO driver amplifier and is matched to 50 ohms. It is internally DC blocked.Equivalent circuit for the LO
Pin 5Negative DC Supply Vg Pin 5 requires -0.4V to -0.6V of DC voltage. This must be turned on before turning on the positive supply voltage to Pin 5.Equivalent circuit for the Negative DC Supply Vg
Pin 8IF Pin 8 is DC coupled to the diodes. Blocking capacitor is optional.Equivalent circuit for the IF

Rev: A | Copyright © 2022, 2024 Marki Microwave LLC.

4

Specifications

Absolute Maximum Ratings

The Absolute Maximum Ratings indicate limits beyond which damage may occur to the device. All limits are individual and should not be met in parallel, doing so will degrade the lifetime of the device. If these limits are exceeded, the device may be inoperable or have a reduced lifetime.

ParameterMaximum RatingUnit
DC Voltage on VD 4.5V
DC Voltage on VG -2V
Junction to Ambient Thermal Resistance 94ºC/W
LO Power Handling 20dBm
Maximum Operating Temperature 85°C
Maximum Storage Temperature 125°C
Max Junction Temperature for MTTF> 1E6 hours 175°C
Minimum Operating Temperature -40°C
Minimum Storage Temperature -65°C
Positive Drain Supply Current with RF Input (Id) 450mA
RF Power Handling 25dBm

Package Information

ParameterDetailsRating
Dimensions-3 x 4.6 mm
Moisture Sensitivity Level-MSL 3

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 -402585°C
LO Input Power -666dBm
Gate Bias DC Voltage (Vg) -0.6-0.5-0.4V
Saturated Current Consumption -250330mA
Quiescent Current Consumption -170-mA
Positive DC Voltage (Vd) 2.533V

Rev: A | Copyright © 2022, 2024 Marki Microwave LLC.

5

Electrical Specifications

The electrical specifications apply at TA=+25°C in a 50Ω system. Typical data shown is for a down conversion application with a +6dBm LO input to the integrated LO driver amp biased at +3Vd1/+3Vd2/+3Vd3/-0.5Vg unless otherwise specified.

ParameterTest ConditionsMinTypMaxUnit
Conversion Loss 1RF/LO = 8 - 32 GHz
I = 0.2 – 12 GHz
-1114dB
Conversion Loss 2RF/LO = 8 - 32 GHz
I = DC – 0.2 GHz
-9-dB
IF Frequency Range -0-12GHz
Input IP3 RF/LO = 8 - 32 GHz
I = DC - 2 GHz
-24-dBm
Input P1dB --9-dBm
LO Frequency Range -8-32GHz
Noise Figure 3RF/LO = 8 - 32 GHz
I = DC – 0.2 GHz
-9-dB
RF Frequency Range -8-32GHz
RF-IF Isolation RF/LO = 8 - 32 GHz
-39-dB

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

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

Rev: A | Copyright © 2022, 2024 Marki Microwave LLC.

6

Typical Performance Plots

Conversion Loss vs LO Power (dB) graph for MM1A-0832HPSM-2
Relative IF Response, HSLO, 12 GHz RF (dB) graph for MM1A-0832HPSM-2
Relative IF response, LSLO, 25GHz RF (dB) graph for MM1A-0832HPSM-2
IF Return Loss, HSLO, 12GHz RF (dB) graph for MM1A-0832HPSM-2
RF Return Loss (dB) graph for MM1A-0832HPSM-2
LO Return Loss (dB) graph for MM1A-0832HPSM-2
RF to IF Isolation (dB) graph for MM1A-0832HPSM-2
Drain Current (A) vs Input Power and Frequency graph for MM1A-0832HPSM-2

Rev: A | Copyright © 2022, 2024 Marki Microwave LLC.

7

LO to IF Leakage (dBm) graph for MM1A-0832HPSM-2
LO to RF Leakage (dBm) graph for MM1A-0832HPSM-2
IIP3 vs LO Power (dBm) graph for MM1A-0832HPSM-2
OIP3 vs LO Power (dBm) graph for MM1A-0832HPSM-2
Current Consumption vs. RF Input Power (mA) graph for MM1A-0832HPSM-2
Even LO Harmonic to RF Leakage (dBm) graph for MM1A-0832HPSM-2
Even LO Harmonic to IF Leakage (dBm) graph for MM1A-0832HPSM-2
Odd LO Harmonic to RF Leakage (dBm) graph for MM1A-0832HPSM-2

Rev: A | Copyright © 2022, 2024 Marki Microwave LLC.

8

Odd LO Harmonic to IF Leakage (dBm) graph for MM1A-0832HPSM-2
2RF x 2LO Spurious Suppression (dBc) -10 dBm IF Input graph for MM1A-0832HPSM-2
2IF x 1LO Spurious Suppression (dBc) -10 dBm IF input graph for MM1A-0832HPSM-2

Rev: A | Copyright © 2022, 2024 Marki Microwave LLC.

9

Application Circuit

Application Circuit for MM1A-0832HPSM-2

Rev: A | Copyright © 2022, 2024 Marki Microwave LLC.

10

Mechanical Data

Outline Drawing

Download : Outline 2D Drawing Outline 3D Drawing Outline 3D STP

Outline Drawing

Rev: A | Copyright © 2022, 2024 Marki Microwave LLC.

11

Rev: A | Copyright © 2022, 2024 Marki Microwave LLC.

12

Evaluation Board - Outline Drawing

Outline Drawing

Rev: A | Copyright © 2022, 2024 Marki Microwave LLC.

13