Kenwood TS-480HX Operation Manual - Page 58

Memory Features

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MEMORY FEATURES MEMORY CHANNELS The transceiver provides you with 100 memory channels, numbered 00 to 99, for storing operating frequency data, modes and other information. Memory channels 00 to 89 are called Conventional Memory Channels. Memory channels 90 to 99 are designed for programming VFO tuning ranges and scan ranges. The data you can store is listed below. Conventional memory channels are used for storing data you will often recall. For example, you may store the frequency where you regularly meet your club members. Parameter RX frequency TX frequency Channel 00 ~ 89 Yes Yes Channel 90 ~ 99 Yes 1 (simplex) RX mode TX mode Programmable VFO Start/ End frequencies RX frequency step size TX frequency step size Yes Yes 1 Yes (simplex) No Yes Yes Yes Yes (simplex) Tone frequency Yes Yes CTCSS frequency Yes Yes Tone/ CTCSS ON/ OFF status Yes Yes Memory name Yes Yes Memory Channel Lockout ON/ OFF Yes 1 Yes 1 1 Changing the data after recalling a memory channel overwrites the contents of the channel. STORING DATA IN MEMORY There are 2 methods used for storing transmission/ reception frequencies and associated data in memory channels 00 to 89. Use either method, depending on the relationship of the reception and transmission frequencies you store: • Simplex channels: RX frequency = TX frequency • Split-frequency channels: RX frequency ≠ TX frequency Memory channels 90 to 99 can also be used as simplex channels. Note: When RIT or XIT is ON, the frequency that includes the RIT or XIT offset will be stored. ■ Simplex Channels 1 Press [A/B / M/V] to select VFO A or VFO B. • "tA" or "tB" appears to show which VFO is selected. 2 Select the frequency, mode, etc. to be stored. 3 Press [QMI/ M.IN] (1 s) to enter Memory Scroll mode. • "M.SCR" appears. • To exit Memory Scroll mode and abort the storage process, press [MTR/ CLR]. 4 Turn the MULTI control, or press Mic [UP]/ [DWN] to select a memory channel. • You can also select a channel by entering a 2-digit number, such as 12, using the numeric keys. Press [1], [2] for example. 5 Press [QMI/ M.IN] again to store the data. • The previous data stored in the channel is overwritten. 50

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50
MEMORY FEATURES
MEMORY CHANNELS
The transceiver provides you with 100 memory
channels, numbered 00 to 99, for storing operating
frequency data, modes and other information.
Memory channels 00 to 89 are called Conventional
Memory Channels.
Memory channels 90 to 99 are
designed for programming VFO tuning ranges and
scan ranges.
The data you can store is listed below.
Conventional memory channels are used for storing
data you will often recall.
For example, you may
store the frequency where you regularly meet your
club members.
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Changing the data after recalling a memory channel overwrites the
contents of the channel.
STORING DATA IN MEMORY
There are 2 methods used for storing transmission/
reception frequencies and associated data in memory
channels 00 to 89.
Use either method, depending on
the relationship of the reception and transmission
frequencies you store:
Simplex channels:
RX frequency = TX frequency
Split-frequency channels:
RX frequency
TX frequency
Memory channels 90 to 99 can also be used as
simplex channels.
Note:
When RIT or XIT is ON, the frequency that includes the RIT or
XIT offset will be stored.
Simplex Channels
1
Press
[A/B / M/V]
to select VFO A or VFO B.
t
A
” or “
t
B
” appears to show which VFO
is selected.
2
Select the frequency, mode, etc. to be stored.
3
Press
[QMI/ M.IN] (1 s)
to enter Memory Scroll
mode.
“M.SCR” appears.
To exit Memory Scroll mode and abort the
storage process, press
[MTR/ CLR]
.
4
Turn the
MULTI
control, or press Mic
[UP]
/
[DWN]
to select a memory channel.
You can also select a channel by entering a
2-digit number, such as 12, using the
numeric keys.
Press
[1]
,
[2]
for example.
5
Press
[QMI/ M.IN]
again to store the data.
The previous data stored in the channel is
overwritten.