Download - Homebrew SWR Meter

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Page 1: Homebrew SWR Meter

Bill LeonardNØCU

NAØTC - 285 TechConnect Radio Clubhttp://www.naØtc.org/

Homebrew HF SWR/Power Meter

5/4/2012

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Theory

•Standing Waves

Dynamic Demo: http://www.walter-fendt.de/ph14e/stwaverefl.htm

SWR = 3:1

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Theory

•SWR Calculation•Not a direct measurement

SWR = EREF

1+PRPF

1-PRPF

= +

EREF -

EF = Forward VoltageER = Reverse VoltagePF = Forward PowerPR = Reverse Voltage

SWR accuracy is only as good as the power measurement accuracy (both Forward & Reflected)

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Theory

•How should RF Power be measured?1. RF voltmeter connected at the output of the transmitter

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Theory

•How should RF Power be measured?1. RF voltmeter connected at the output of the transmitter

No!1. Voltage reading is dependent upon load impedance at the point

of measurement• Power meters on Ameritron Power Amplifiers

2. To determine power, we need independent measurements of voltage and current

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Theory

•How should RF Power be measured?1. RF voltmeter connected at the output of the transmitter2. Use a TRUE POWER meter that can measure both current

and voltage of both the forward and reflected waves

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RF Power Meter Components

Forward

Reflected

Sensor

Meter*

RFIN

RFOUT

X X

DirectionalCoupler

EnvelopeDetectors

*Meter can be:• Analog or digital• Current or voltage•0-100 uA typical (non-powered)

RF Power Meter

Switch

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SWR/Power Meter - Digital

Forward

Reflected

Sensor

DigitalDisplay

RFIN

RFOUT

X X

DirectionalCoupler

EnvelopeDetectors

DigitalProcessor

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Alpha 4520 Digital Power/SWR Meter

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SWR/Power Meter - Digital

Forward

Reflected

Sensor

DigitalDisplay

RFIN

RFOUT

X X

DirectionalCoupler

EnvelopeDetectors

Processor

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Forward

Reflected

Sensor

RFIN

RFOUT

X X

DirectionalCoupler

EnvelopeDetectors

SWR/Power Meter - Digital

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My Digital Power Meter

Resolution:100W/40000 uV = 0.025 W/uV

uV

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Digital Power/SWR Meters

Forward

Reflected

What is the main difference?

SensorAlpha 4520

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Digital Power/SWR Meters

Forward

Reflected

Sensor

Cost!

$800

~$0-50

$30 upAlpha 4520

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Digital Power/SWR Meters

Forward

Reflected

Sensor

Accuracy varies from ~5% to ?•Power reading accuracy is very dependent on Sensor

calibration accuracy (both Forward & Reflected)

Accuracy Spec = <5%Accuracy: 5-10% achievable

Alpha 4520

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Ultimate Limit on Accuracy?

•Sensor Calibration!•Initial CAL accuracy

•Volts out vs Power In•SWR is a calculation, not a measurement

•Volts out vs Frequency•Traceable to NIST?•Drift with time•Load impedance drift with heating (1-3 KW???)

•Having a digital readout:•Doesn’t improve accuracy•Improves resolution•May improve repeatability

•Having a digital processor does allow for better calibration of sensor characteristics

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Telepost LP-100A Digital Vector Wattmeter

•Accuracy: •Same specs as Alpha 4520

•5% maximum•3% (typical)

•NIST traceable factory calibration•What does this mean?

•eHam rating: 5.0/5 (121 reviews)•$4355/4/2012

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Directional Coupler

Sensor

RFIN

RFOUT

X X

DirectionalCoupler

RF Power Meter

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•Only couples power flowing in one direction•Only couples a small sample of the power flowing in the desired direction

Directional Coupler

RFIN

RFOUTX

ForwardCoupler

X

Green = desired couplingRed = undesired coupling

•Coupling factor represents the primary property of a directional coupler•To reduce 100 w to 100 mw => Coupling factor = -30 dB

•Directivity is the measure of how well a coupler isolates two opposite-travelling (forward and reverse) signals

•Creates region of uncertainty around all measurements•Bird 43: Directivity >30 dB

Forward

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Dual Directional Coupler

RFIN

RFOUTX

ForwardCoupler

X X XReverseCoupler

Green = desired couplingRed = undesired coupling

Forward Reflected

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Common Directional Couplers

Coupled Transmission Line Coupler

Bird 435/4/2012

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Common Directional Couplers

Tandem Match Coupler

Bruene Bridge*

*Most common type found in commercial amateur transmitters

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Common Directional Couplers

Tandem Match Coupler

Bruene Bridge*

*Most common type found in commercial amateur transmitters

How do we get Voltage & Current?5/4/2012

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Common Directional Couplers

Tandem Match Coupler

Bruene Bridge*

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Common Directional Couplers

Null adjustment

Tandem Match Coupler

Bruene Bridge*

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•Tandem Match Coupler•This coupler has some nice features:

•Simplicity, excellent directivity•Scalable to other power levels, and•50-Ω load impedances on all ports

•Covering 1.8-30 MHz requires careful transformer design•Input VSWR can degrade rapidly as frequency drops below 7 MHz

•Bruene Bridge•Requires comparatively little space•Most commonly used design by Ham equipment manufacturers•Primary challenges with this design:

1. Parasitic lead inductance associated with C22. High values for C23. Excessive secondary wire length on T1, and4. Impedance control in the bifilar secondary winding

•The lead inductance and C2 result in a series resonance that progressively deteriorates bridge balance as the frequency is raised

Common Sensors

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Tandem Match Coupler

SWR Sensor (from 2010 ARRL Antenna Handbook)

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SWR Sensor (from 2010 ARRL Antenna Handbook)

At 100 watts, IFWDOUT (into a short) > 6 mAAt 100 watts, VFWDOUT (into an open) > 2.0 vdc

Any small signal diode will work(Germaniums are best for QRP)

Shield on coax used as a Faraday shield (grounded on one end only)

Tandem Match Coupler

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Tandem Match CouplerCaution: Germanium diodes don’t like heat

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Tandem Match Coupler Using Balun CoreDX Zone.com ”Digital QRP SWR/ Power Meter” by KD1JV

Compensation Diodes(I don’t recommend)

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Processor/DisplayDX Zone.com ”Digital QRP SWR/ Power Meter” by KD1JV

•http://kd1jv.qrpradio.com/•http://www.dxzone.com/cgi-bin/dir/jump2.cgi?ID=18048

“Whitman’s Sampler” tin

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Sensor

RFIN

RFOUT

X X

EnvelopeDetectors

RF Power Meter

Envelope Detector

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Common Envelope Detector

Forward

Reflected

100K

100K

0.01 uF

0.01 uF

Diode

Diode

Diodes:•Type not critical•Germanium best for QRP•Matched is desirable, but not required

51

51

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Diode Options

Silicon:•1N3600 => VD ~0.7 volt

Germanium:•1N34, 1N60, 1N270 => VD ~ 0.3 volt

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Diode Matching -Tandem Match Coupler

0

0.5

1

1.5

2

2.5

0 10 20 30 40 50 60 70 80 90 100

1N34A-1

1N34A-2

Watts

VDC

Diode type dependent

?

No matching attempted

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Isolated Meter Circuit

+

-1 Forward OUT

3

2

1

11

4

+

-2 Reflected OUT

5

6

7

+VIN+X VDC

1 uF

780X

1 uF

LM324 or equivalent

100K

100K

0.01 uF

0.01 uF

Forward

Reflected

51

51

Diode

Diode3

1

4

2 vdc

~ 300 ohm

Source

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Meter Adjustment

+

-1 Forward OUT

3

2

1

11

4

+

-2 Reflected OUT

5

6

7

+VIN+X VDC

1 uF

780X

1 uF

100K

100K

0.01 uF

0.01 uF

FWDLevel

Adjust

REFLevel

Adjust

Forward

Reflected

51

51

Diode

Diode

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A SIMPLE SWR METER FOR QRP (1 WATT) LEVELS

Not required

XX

X

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0.00

0.50

1.00

1.50

2.00

2.50

0 2 5 10 20 30 40 50 60 70 80 90 95 100

0

10

20

30

40

50

2 5 10 20 30 40 50 60 70 80 90 95

0

20

40

60

80

100

0 10 20 30 40 50 60 70 80 90 100

VDC

mVDC

Watts

Watts

Performance – Power Measurement

Homebrew(Tandem Match)

Bird(Coupled Line/Digital)

Pride(Breune)

Diode type dependent

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Performance – SWR Measurement

1.0

1.5

2.0

2.5

3.0

Tandem

Bird

Breune

25 ohm Load @ PF = 60 watts

1.8 MHz14 MHz

28 MHz

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SWR Protection Circuit

+

-1

3

2

1

11

4

+

-2

ReflectedReflected

Power

5

6

7 +

-4

1K

12

1314

1.1K

+13.5VDC

+8 VDC

1 uF

To+4 VDC

FoldbackTreshold

7808

390½ W

SWR LEDRadio Shack

276-0017

100K

Forward

100K

10K+

-3

1.21M

10

9

8

1 uF

1.0 uF

LatchRelay1

+12 VDC

100

17 mA

1

16

+

-

Latch Relay1

13

8

6

9

4

11

0.1 uF

To SWRShutdown

5.1K

Reset

To+8 VDC

5.1K

2N3501

2N3501

2N3501

1N3600

2N3501

+4 VDC

10K

15K

15K0.1 uF

15K

+1.6 VDC

0.1 uF

1N3600

1.0 uF

1N3600

150K~1 sec Delay

to Latch

LatchTreshold

200K

+- To+13.5 VDC

LM324

FWD

REF

5/4/2012