XU1010-QH-EV1 [MIMIX]

17.0-34.0 GHz Up-Converter QFN, 4x4mm; 17.0-34.0 GHz的上变频器QFN封装，采用4x4mm


型号：	XU1010-QH-EV1
厂家：	MIMIX BROADBAND
描述：	17.0-34.0 GHz Up-Converter QFN, 4x4mm 17.0-34.0 GHz的上变频器QFN封装，采用4x4mm
文件：	总5页 (文件大小：789K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

17.0-34.0 GHz Up-Converter

QFN, 4x4mm

February 2010 - Rev 12-Feb-10

U1010-QH

Features

Integrated Balanced Mixer, LO Buffer and LO Doubler

+23.0 dBm Input Third Order Intercept (IIP3)

+2.0 dBm LO Drive Level

4x4mm QFN Package

100% RF and DC Testing

General Description

Mimix Broadband’s 17.0-34.0 GHz GaAs packaged

up-converter has an input third order intercept point

of +23.0 dBm and 10.0 dB of conversion loss.The

device consists of a balanced resistive pHEMT mixer,

LO buffer amplifier and LO doubler packaged in an

industry standard, fully molded 4x4mm QFN package.

IF and *IF mixer inputs are provided and an external

180 degree hybrid is required.The device includes

on-chip ESD protection structures and DC by-pass

capacitors to ease the implementation and volume

assembly of the packaged part. This device is well

suited for Millimeter-wave Point-to-Point Radio, LMDS,

SATCOM and VSAT applications.

Absolute Maximum Ratings¹

Drain Voltage Supply (Vdd)

Drain Current (Ids)

+4.3V

350 mA

Input Power (Pin) IF

+5 dBm

Input Power (Pin) LO

+10 dBm

-65 to +165 ºC

-55 to +85 ºC

Class A

Storage Temperature (Tstg)

Operating Temperature (Tb)

ESD Min. - Machine Model (MM)

ESD Min. - Human Body Model (HBM) Class 0

MSL Level MSL3

Electrical Characteristics (AmbientTemperatureT = 25 ^oC)

Parameter

Frequency Range (RF)

Units

GHz

dBm

Min.

Typ.

Max.

3.5

Frequency Range (LO)

Frequency Range (IF)

Conversion Loss (CL)

Input Third Order Intercept (IIP3)

LO Input Drive

RF Input Return Loss

LO Input Return Loss

IF Input Return Loss

2xLO Leakage at RF

dBm

VDC

-20

-30

4.0

~ -0.2

-0.8

-4.0

130

~ 60

1xLO Leakage at RF

Drain Bias Voltage (Vd1,2)

Gate Bias Voltage (Vg1)

Gate Bias Voltage (Vg2,3)

Gate Bias Voltage (Vss)

Supply Current (Id1)

Supply Current (Id2)

Supply Current (Iss)

Page 1 of 5

Mimix Broadband, Inc., 10795 Rockley Rd., Houston,Texas 77099

Tel: 281.988.4600 Fax: 281.988.4615 mimixbroadband.com

Export of this item may require appropriate export licensing from the U.S. Government. In purchasing these parts, U.S. Domestic customers accept

their obligation to be compliant with U.S. Export Laws.

17.0-34.0 GHz Up-Converter

QFN, 4x4mm

February 2010 - Rev 12-Feb-10

U1010-QH

Up-Converter Measurements

XU1010-QH, Glob Top, R10C2: LSB Conversion Loss & IIP3 vs. RF,

XU1010-QH, Glob Top, R10C2: USB Conversion Loss & IIP3 vs. RF,

PLO = 2 dBm, PIFscl = 0 dBm, IF1 - IF2 = 10 MHz, Doubler and Mixer bias swept

Loss, VD2 (V)=4.5, VG2VG3 (V)=-0.8

Loss, VD2 (V)=4.5, VG2VG3 (V)=-0.7

Loss, VD2 (V)=4.5, VG2VG3 (V)=-0.6

Loss, VD2 (V)=5, VG2VG3 (V)=-0.8

Loss, VD2 (V)=5, VG2VG3 (V)=-0.7

Loss, VD2 (V)=5, VG2VG3 (V)=-0.6

Loss, VD2 (V)=5.5, VG2VG3 (V)=-0.8

Loss, VD2 (V)=5.5, VG2VG3 (V)=-0.7

Loss, VD2 (V)=5.5, VG2VG3 (V)=-0.6

IIP3, VD2 (V)=4.5, VG2VG3 (V)=-0.8

IIP3, VD2 (V)=4.5, VG2VG3 (V)=-0.7

IIP3, VD2 (V)=4.5, VG2VG3 (V)=-0.6

IIP3, VD2 (V)=5, VG2VG3 (V)=-0.8

IIP3, VD2 (V)=5, VG2VG3 (V)=-0.7

IIP3, VD2 (V)=5, VG2VG3 (V)=-0.6

IIP3, VD2 (V)=5.5, VG2VG3 (V)=-0.8

IIP3, VD2 (V)=5.5, VG2VG3 (V)=-0.7

IIP3, VD2 (V)=5.5, VG2VG3 (V)=-0.6

Loss, VD2 (V)=4.5, VG2VG3 (V)=-0.7

Loss, VD2 (V)=4.5, VG2VG3 (V)=-0.6

IIP3

Loss, VD2 (V)=5, VG2VG3 (V)=-0.8

IIP3

Loss, VD2 (V)=5, VG2VG3 (V)=-0.7

Loss, VD2 (V)=5, VG2VG3 (V)=-0.6

Loss, VD2 (V)=5.5, VG2VG3 (V)=-0.8

Loss, VD2 (V)=5.5, VG2VG3 (V)=-0.7

Loss, VD2 (V)=5.5, VG2VG3 (V)=-0.6

IIP3, VD2 (V)=4.5, VG2VG3 (V)=-0.8

IIP3, VD2 (V)=4.5, VG2VG3 (V)=-0.7

IIP3, VD2 (V)=4.5, VG2VG3 (V)=-0.6

IIP3, VD2 (V)=5, VG2VG3 (V)=-0.8

Loss

-5

IIP3, VD2 (V)=5, VG2VG3 (V)=-0.7

Loss

IIP3, VD2 (V)=5, VG2VG3 (V)=-0.6

-10

-15

-20

IIP3, VD2 (V)=5.5, VG2VG3 (V)=-0.8

IIP3, VD2 (V)=5.5, VG2VG3 (V)=-0.7

-15

IIP3, VD2 (V)=5.5, VG2VG3 (V)=-0.6

-20

14 16

18 20

22 24

26 28

30 32

34 36

14 16

18 20

22 24

26 28

30 32

34 36

LSB RF (GHz) [IF = 2 GHz]

USB RF (GHz) [IF = 2 GHz]

VD1 = 5 V, ID1 = 140 mA, VD2 = 5 V, VG2VG3 = - 0.8 V, VSS = - 5 V

IIP3, RF=16, VD1 (V)=4.5

IIP3, RF=16, VD1 (V)=5

IIP3, RF=16, VD1 (V)=5.5

IIP3, RF=18, VD1 (V)=4.5

IIP3, RF=18, VD1 (V)=5

IIP3, RF=18, VD1 (V)=5.5

IIP3, RF=20, VD1 (V)=4.5

IIP3, RF=20, VD1 (V)=5

IIP3, RF=20, VD1 (V)=5.5

IIP3, RF=22, VD1 (V)=4.5

IIP3, RF=22, VD1 (V)=5

IIP3, RF=22, VD1 (V)=5.5

IIP3, RF=24, VD1 (V)=4.5

IIP3, RF=24, VD1 (V)=5

IIP3, RF=24, VD1 (V)=5.5

IIP3, RF=26, VD1 (V)=4.5

IIP3, RF=26, VD1 (V)=5

IIP3, RF=26, VD1 (V)=5.5

IIP3, RF=28, VD1 (V)=4.5

IIP3, RF=28, VD1 (V)=5

IIP3, RF=28, VD1 (V)=5.5

IIP3, RF=30, VD1 (V)=4.5

IIP3, RF=30, VD1 (V)=5

IIP3, RF=30, VD1 (V)=5.5

IIP3, RF=32, VD1 (V)=4.5

IIP3, RF=32, VD1 (V)=5

IIP3, RF=32, VD1 (V)=5.5

IIP3, RF=34, VD1 (V)=4.5

IIP3, RF=34, VD1 (V)=5

IIP3, RF=34, VD1 (V)=5.5

IIP3, RF=16, VD1 (V)=4.5

IIP3, RF=16, VD1 (V)=5

IIP3, RF=16, VD1 (V)=5.5

IIP3, RF=18, VD1 (V)=4.5

IIP3, RF=18, VD1 (V)=5

IIP3, RF=18, VD1 (V)=5.5

IIP3, RF=20, VD1 (V)=4.5

IIP3, RF=20, VD1 (V)=5

IIP3, RF=20, VD1 (V)=5.5

IIP3, RF=22, VD1 (V)=4.5

IIP3, RF=22, VD1 (V)=5

IIP3, RF=22, VD1 (V)=5.5

IIP3, RF=24, VD1 (V)=4.5

IIP3, RF=24, VD1 (V)=5

IIP3, RF=24, VD1 (V)=5.5

IIP3, RF=26, VD1 (V)=4.5

IIP3, RF=26, VD1 (V)=5

IIP3, RF=26, VD1 (V)=5.5

IIP3, RF=28, VD1 (V)=4.5

IIP3, RF=28, VD1 (V)=5

IIP3, RF=28, VD1 (V)=5.5

IIP3, RF=30, VD1 (V)=4.5

IIP3, RF=30, VD1 (V)=5

IIP3, RF=30, VD1 (V)=5.5

IIP3, RF=32, VD1 (V)=4.5

IIP3, RF=32, VD1 (V)=5

IIP3, RF=32, VD1 (V)=5.5

XU1010-QH: LSB IIP3 & Loss vs. ID1 (LO buffer),

PLO = 4 dBm, PIFscl = 0 dBm, IF1 - IF2 = 10 MHz

XU1010-QH: USB IIP3 & Loss vs. ID1 (LO buffer),

PLO = 4 dBm, PIFscl = 0 dBm, IF1 - IF2 = 10 MHz

IIP3

-5

Loss

-10

-15

-20

-10

-15

-20

100

120

140

160

180

200

100

120

140

160

180

200

IIP3, RF=34, VD1 (V)=4.5

IIP3, RF=34, VD1 (V)=5

IIP3, RF=34, VD1 (V)=5.5

ID1 (mA)

VD1 = 4.5, 5 & 5.5 V, ID1 swept, VD2 = 5 V, VG2VG3 = - 0.8 V, VSS = - 5 V

XU1010-QH, Glob Top, R10C2: 1xLO output power @ RF port,

PLOswp, PIFscl = 0 dBm, IF1 - IF2 = 10 MHz

XU1010-QH, Glob Top, R10C2: 2xLO output power @ RF port,

PLOswp, PIFscl = 0 dBm, IF1 - IF2 = 10 MHz

-5

-10

-15

-10

-15

1xLO, Side=LSB, PLO (dBm)=0

1xLO, Side=LSB, PLO (dBm)=2

1xLO, Side=LSB, PLO (dBm)=4

1xLO, Side=LSB, PLO (dBm)=5

1xLO, Side=USB, PLO (dBm)=0

1xLO, Side=USB, PLO (dBm)=2

1xLO, Side=USB, PLO (dBm)=4

1xLO, Side=USB, PLO (dBm)=5

2xLO, Side=LSB, PLO (dBm)=0

2xLO, Side=LSB, PLO (dBm)=2

2xLO, Side=LSB, PLO (dBm)=4

2xLO, Side=LSB, PLO (dBm)=5

2xLO, Side=USB, PLO (dBm)=0

2xLO, Side=USB, PLO (dBm)=2

2xLO, Side=USB, PLO (dBm)=4

2xLO, Side=USB, PLO (dBm)=5

-20

-25

-30

-35

-40

-45

-50

-55

-60

-20

-25

-30

-35

-40

-45

-50

-55

-60

10 11 12 13 14 15 16 17 18 19 20

12 14 16 18 20 22 24 26 28 30 32 34 36 38 40

1xLO (GHz) [IF = 2 GHz]

2xLO (GHz) [IF = 2 GHz]

VD1 = 5 V, ID1 = 140 mA, VD2 = 5 V, VG2VG3 = - 0.8 V, VSS = - 5 V

Page 2 of 5

Mimix Broadband, Inc., 10795 Rockley Rd., Houston,Texas 77099

Tel: 281.988.4600 Fax: 281.988.4615 mimixbroadband.com

Export of this item may require appropriate export licensing from the U.S. Government. In purchasing these parts, U.S. Domestic customers accept

their obligation to be compliant with U.S. Export Laws.

17.0-34.0 GHz Up-Converter

QFN, 4x4mm

February 2010 - Rev 12-Feb-10

U1010-QH

App Note [1] Biasing - As shown in the Pin Designations table, the device is operated by biasing VD1 and VD2 at 4.0V with 130mA and

approximately 60mA respectively. VG2,3 and VSS require fixed voltage biasing with VSS biased at -4.0V and 45mA. It is recommended to use active

bias on VG1 to keep the current in VD1 constant in order to maintain the best performance over temperature. Depending on the supply voltage

available and the power dissipation constraints, the bias circuit may be a single transistor or a low power operational amplifier, with a low value

resistor in series with the drain supply used to sense the current. The gate of the pHEMT is controlled to maintain correct drain current and thus

drain voltage. The typical gate voltage needed to do this is -0.2V. Make sure to sequence the applied voltage to ensure negative gate bias is

available before applying the positive drain supply.

App Note [2] Board Layout - As shown in the board layout, it is recommended to provide 100pF decoupling caps as close to the bias pins as

possible, with additional 10µF decoupling caps.

Recommended Board Layout

Page 3 of 5

Mimix Broadband, Inc., 10795 Rockley Rd., Houston,Texas 77099

Tel: 281.988.4600 Fax: 281.988.4615 mimixbroadband.com

Export of this item may require appropriate export licensing from the U.S. Government. In purchasing these parts, U.S. Domestic customers accept

their obligation to be compliant with U.S. Export Laws.

17.0-34.0 GHz Up-Converter

QFN, 4x4mm

February 2010 - Rev 12-Feb-10

U1010-QH

Package Dimensions / Layout

Functional Block Diagram

Pin Designations

NC GND

RF GND NC VG2,3

Pin Number Pin Name

Pin Function

Nominal Value

3-4

GND

IF1

IF1 Output

Not Connected

IF2 Output

IF2

GND

IF1

VG1

VSS

MIXER

0^o

6-8

GND

VD1

VD2

GND

VSS

VG1

Not Connected

LO Input

ESD

180 ^o

11-12

15-16

GND

Not Connected

LO Buffer Drain

LO Doubler Drain

4.0V, 130 mA

4.0V, 60 mA

BUF

Doubler/ESD Bias

LO Buffer Gate

4.0V, 45 mA

-0.2V

-0.8V

IF2

VD2

VD1

VG2,3 LO Doubler/Mixer Gate

GND

Not Connected

RF Input

Not Connected

NC GND

LO GND NC

Page 4 of 5

Mimix Broadband, Inc., 10795 Rockley Rd., Houston,Texas 77099

Tel: 281.988.4600 Fax: 281.988.4615 mimixbroadband.com

Export of this item may require appropriate export licensing from the U.S. Government. In purchasing these parts, U.S. Domestic customers accept

their obligation to be compliant with U.S. Export Laws.

17.0-34.0 GHz Up-Converter

QFN, 4x4mm

February 2010 - Rev 12-Feb-10

U1010-QH

Handling and Assembly Information

CAUTION! - Mimix Broadband MMIC Products contain gallium arsenide (GaAs) which can be hazardous to the human body and the

environment. For safety, observe the following procedures:

• Do not ingest.

• Do not alter the form of this product into a gas, powder, or liquid through burning, crushing, or chemical processing as these

by-products are dangerous to the human body if inhaled, ingested, or swallowed.

• Observe government laws and company regulations when discarding this product.This product must be discarded in

accordance with methods specified by applicable hazardous waste procedures.

Electrostatic Sensitive Device - Observe all necessary precautions when handling.

Life Support Policy - Mimix Broadband's products are not authorized for use as critical components in life support devices or

systems without the express written approval of the President and General Counsel of Mimix Broadband. As used herein: (1) Life

support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain

life, and whose failure to perform when properly used in accordance with instructions for use provided in the labeling, can be

reasonably expected to result in a significant injury to the user. (2) A critical component is any component of a life support device or

system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its

safety or effectiveness.

Package Attachment - This packaged product from Mimix Broadband is provided as a rugged surface mount package compatible

with high volume solder installation. Vacuum tools or other suitable pick and place equipment may be used to pick and place this

part. Care should be taken to ensure that there are no voids or gaps in the solder connection so that good RF, DC and ground

connections are maintained. Voids or gaps can eventually lead not only to RF performance degradation, but reduced reliability and

life of the product due to thermal stress.

Typical Reflow Profiles

Reflow Profile

SnPb

Pb Free

Ramp Up Rate

3-4 ºC/sec

60-120 sec @ 140-160 ºC

60-150 sec

240 ºC

3-4 ºC/sec

Activation Time and Temperature

Time Above Melting Point

Max Peak Temperature

Time Within 5 ºC of Peak

Ramp Down Rate

60-180 sec @ 170-200 ºC

60-150 sec

265 ºC

10-20 sec

4-6 ºC/sec

Mimix Lead-Free RoHS Compliant Program - Mimix has an active program in place to meet customer and governmental

requirements for eliminating lead (Pb) and other environmentally hazardous materials from our products. All Mimix RoHS compliant

components are form, fit and functional replacements for their non-RoHS equivalents. Lead plating of our RoHS compliant parts is

100% matte tin (Sn) over copper alloy and is backwards compatible with current standard SnPb low-temperature reflow processes as

well as higher temperature (260°C reflow) “Pb Free” processes.

Part Number for Ordering

XU1010-QH-0G00

XU1010-QH-0G0T

Description

Matte Tin plated RoHS compliant 4x4 24L QFN surface mount package in bulk quantity

Matte Tin plated RoHS compliant 4x4 24L QFN surface mount package in tape and reel

XU1010-QH evaluation board

XU1010-QH-EV1

Caution: ESD Sensitive

Appropriate precautions in handling, packaging

and testing devices must be observed.

Proper ESD procedures should be followed when handling this device.

Page 5 of 5

Mimix Broadband, Inc., 10795 Rockley Rd., Houston,Texas 77099

Tel: 281.988.4600 Fax: 281.988.4615 mimixbroadband.com

Export of this item may require appropriate export licensing from the U.S. Government. In purchasing these parts, U.S. Domestic customers accept

their obligation to be compliant with U.S. Export Laws.

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