Receive antenna in/out, Buffered i.f. output, Using transverters – Elecraft K3 Owner's Manual User Manual

39

Receive Antenna In/Out

The RX ANT IN/OUT jacks, supplied with the
KXV3 option, have various uses:

• Low-noise receiving antenna: Some operators

use a Beverage, tuned loop, or other low-noise
receiving antenna. You can connect such
antenna to the RX ANT IN jack, then tap

R X A N T

to select it. The

RX

icon will turn on.

• Narrowband filters or preamps: You can

"patch in" a specialized filter or preamp (e.g.,
the Elecraft PR6 preamp for 6 meters) between
RX ANT IN / OUT. Tap

R X A N T

to switch the

filter in (per-band). It will be in-line only during
receive, so you can use low-power devices.

• Test signal injection: The RX ANT IN jack is

ideal to inject a test signal, because the
generator won't be damaged if you transmit.

• Receiver comparisons: If you connect the RX

ANT OUT jack to a second receiver, and leave
the RX ANT IN jack open, you can A/B test the
K3 against the other receiver. When the

R X

A N T

is not selected (

RX

icon off), the K3 will

be receiving on its main antenna jack, and the
other receiver will have no input. If you then
tap

R X A N T

, the K3 will have no receive

antenna, while the other receiver will be
operating from the K3's main antenna.

If you’re comparing the K3 to a transceiver and

using its transmit/receive antenna, be sure to set its
power to 0 so you won't damage the KXV3 when
you transmit.

Buffered I.F. Output

The KXV3 provides a buffered receive I.F. signal
at the IF OUT jack (~8.215 MHz). This signal is
compatible with panadapters, such as the P3 (pg.
45). Refer to panadapter’s manual for interfacing
and operating instructions. The frequency of the
receive I.F. for a given mode/filter setting can be
queried by a computer using the command “FI;”
(refer to the K3 Programmer’s Reference).

Use a short, high-quality coax cable between

the K3 and the panadapter. Additional isolation
circuitry may also be required.

Using Transverters

Nine user-definable bands are provided for use with
transverters. These can be used with the Elecraft
K144XV internal 2-m module, Elecraft XV-Series,
or other transverters. See pg. 18 for connections.

Transverter Band Setup

Transverter bands are set up using the XV menu
entries. Tap

1

–

9

within menu entries to select a

transverter band to configure.

• Set XVn ON to

YES

to enable band

n

.

• XVn RF sets the operating frequency (MHz).

• XVn IF specifies the I.F. band (7, 14, 21, 28, or

50 MHz). Use 28 MHz for the K144XV option.

• XVn PWR sets maximum K3 power output for

the current transverter band, in two ranges:

L . 01-L1. 27

specifies a power level in

milliwatts; the RF bar graph reads in tenths of a
milliwatt in this case. (Requires the KXV3
option. The KXV3 provides XVTR IN and
OUT jacks for external transverters, and
internal IF signal routing for the K144XV.)

H 0 .0-H12 .0

specifies power in watts, and

selects the K3’s main ant. jack(s) for IF output.

• XVn OFS can compensate for frequency offset

in the transverter’s oscillator. Two offsets are
provided for the K144XV (see XVn OFS).

• XVn ADR specifies a transverter select address.

Use

INT . TRN0 -9

with the K144XV (see

XVn ADR description for details).

For weak-signal work: If you have a KXV3,

you can improve isolation between XVTR IN/OUT
and RX ANT IN/OUT by removing any antenna
connected to RX ANT IN. If you have a KAT3, tap

A N T

to select the antenna (1 or 2) that has lower

sensitivity on the I.F. band in use. (Note: The

ANT

1

/

2

icons are not displayed if XVn PWR is set for

L

power range. Use

H

temporarily to see the icons.)

CAUTION: When possible, use mW-level

drive and the XVTR IN/OUT jacks with
transverters (see XVn PWR). If you use high
power, via ANT1 or 2, you could accidentally
damage a low-level transverter.