Tektronix AWG610 User Manual

Appendix D: Sample Waveforms

D-6

AWG610 Arbitrary Waveform Generator User Manual

Table D-8: Linear frequency sweep

File name

LIN_SWP.WFM

Made with equation editor

Equation

clock = 1e9

size = 8000
k0 = 8e-6

'sweep period

k1 = 1e6

'start frequency

k2 = 10e6

'end frequency

lin_swp.wfm" = sin(2 * pi * k1 * time + 2 * pi * (k2 - k1) * (time ^ 2)/2/k0)

Descriptions This waveform can be expressed generally by the following formula.

Here f

1

is the starting frequency, f

2

is the ending frequency, F

0

is the

initial phase, and Tis the sweep period.
To assure that the phases match when this waveform is iterated, the

sweep period is set to be close to an integer multiple of the reciprocal

V(t)

+ sin

ȧȡȢ

2

p

f

1

t

) 2

p

f

2

ŕ

t

0

t

T

dt

) f

0

ȧȣȤ

of the average frequency

.

f

1

) f

2

2

Settings

Waveform points: 8000, Clock frequency: 1.0 GHz, Output time: 8000 ns

Table D-9: Log frequency sweep

File name

LOG_SWP.WFM

Made with equation editor

Equation

clock = 800e6

size = 8800
k0 = 11e-6

'sweep period

k1 = 1e6

'start frequency

k2 = 10e6

'end frequency

k3 = log (k2 / k1)
log_swp.wfm" = sin(2 * pi * k1 * k0 / k3 * (exp (k3 * scale) -1))

Descriptions This waveform can be expressed generally by the following formula.

Here f

1

is the starting frequency, f

2

is the ending frequency, F

0

is the

initial phase, and Tis the sweep period.
To assure that the phases match when this waveform is iterated, the

sweep period is set to be close to an integer multiple of the reciprocal

f

2

–f

1

In

f

2

f

1

of the average frequency

.

V(t)

+ sin

ȧȡȢ

2

pf

1

ŕ

t

0

exp

ǒ

t

T @

In

f

2

f

1

Ǔ

dt

) f

0

ȧȣȤ

Settings

Waveform points: 8800, Clock frequency: 800 MHz, Output time: 11 ms