Kenwood TS-990S User Manual

Page 1
TS-990S
HF/50MHz TRANSCEIVER
For Real DX’ers
HF/50MHz TRANSCEIVER TS-990S
Page 2
Legend and Innovation
2
Page 3
In the making for more than twenty years, the ultimate Contest / DX experience is here. Kenwood’s long­awaited flagship model is equipped with the latest technology that embodies an entirely new HF standard.
Actual size
W18.11x H6.50 x D15.75 in
*Projections not included.
3
Page 4
1973
This all-band SSB transceiver made history with its state-of-the-art technology.
TS-900
1982
The world’s first Ham Radio HF transceiver equipped with a built-in automatic antenna tuner.
TS-930
1985
This HF transceiver offered the high dynamic range that won the struggle through the Cycle 22 pile-up.
TS-940
1989
Another world’s first, this HF transceiver came standard with a built-in DSP.
TS-950
Repeated innovation turns the tradition into a legend.
External Speaker
SP-990
Input :5 W
4
NEW
Page 5
2013
TS-990
The TS-990S comes equipped with dual receivers for simultaneous reception on different bands, it
also features narrow-band roofing filters on the main receiver in a full down-conversion configuration.
The TS-990S achieves the highest basic reception performance of any radio in the TS series, through
the careful selection of circuits, components and accelerating analysis using triple DSP configuration.
Also, thanks to the dual TFT display and superior panel layout, it achieves both comfortable
visibility and operability. Our top-of-the-line transceiver is for all radio operators who love HF.
HF/50 MHz Transceiver
TS-990S
Output:200 W
NEW
5
Page 6
through through
270 Hz
500 Hz
6 kHz
15 kHz
2.7 kHz
1st Mixer
Roofing
Filters
Pre Amp Post Amp
Overwhelmingly the highest quality receiver in the TS series.
The dual receivers facilitate reception on different bands.
The main receiver is the highest quality receiver among the TS-900 series,
thanks to its down-conversion conguration, newly developed mixer,
and ve types of roong lters. This highest quality transceiver will show its true
metal in contests, and erce pile-ups even with high-intensity signals.
The TS-990S will surely satisfy any real DX’er.
Main Receiver
6
We have achieved down-conversion format for all amateur bands
A key point in tapping maximum performance from the 1st mixer
in actual operation (say, CW operation) is to prevent the outow of
unnecessary signals, other than the target signal, from the mixer to
the subsequent stage. This is because it can tap the maximum per-
formance of the digital IF lter using the DSP in the nal IF stage.
The TS-990S main receiver employs a 1st IF frequency 8.248 MHz
down-conversion format. It achieves superior close-in dynamic range
unattainable through conventional up-conversion formats. Even if
the interference is a close-in frequency, the receiver maintains a
relatively at dynamic range, which you can tune without losing your
target signal.
The horizontal axis shows separation of the target signal by interfering signal frequencies (two waves). At a frequency of 10 kHz, interference 1 refers to reception frequency + 10 kHz, and interference 2 refers to reception frequency + 20 kHz.
Comparison 3rd order Intercept Point characteristics
50.00
40.00
30.00
20.00
10.00
0.00
-10.00
Intercept Point [dBm]
-20.00 1 10 100
Interfering wave separation [kHz]
frx=14.2 MHz,PRE AMP OFF,BW 500 Hz,MODE CW
TS-990S Our old model
The newly developed mixer contributes to achieving +40 dBm IP3
In place of the Double Balanced Mixer, which uses the J-FET, we have
installed the newly developed Double Balanced Grounded Switch Type
in the 1st mixer circuit, which is the heart of the main receiver.
The transceiver is also equipped with a pre selector function (works
on HF amateur band) that varies its tuning frequency in tandem with
the receiver frequency. It effectively dampens interference from strong
signals that cannot be minimized through bandpass lters on dedicated
amateur bands. Furthermore, we have achieved a +40 dBm class of
third-order intercept point for the signal path of the 1st mixer, based on
select circuits and components, employing large core toroidal coils for
protecting against distortion from large input signals, as well as using
relays for the signal switching.
Pre Selector 160m BAND
0
-20
-40
-60
Amplitude (dB)
-80
-100
0.0 1.0 2.0 3.0 4.0 5.0
Frequency (Hz)
Pre Selector feature Transformer feedback RF AmpAmateur Band RF BPF
ATT
0/6 /12/18 dB
RF BPF
Pre Selector
through
Page 7
82.78
92.48 MHz
96.48
107.48 MHz
115.48
128.992 MHz
127.48
138.992 MHz
PLL PLL
AMP
AMP
Divider
1/N
Main reception unit 1st Local Oscillator Block Diagram
DDS
1.8/3.5/ 5M 7M
14/1 8/21/ 24M
...
N=10
...
N=8
...
N=4
(other than these, DDS Direct)
HF/50MHz TRANSCEIVER TS-990S
Main receiver
The newly developed narrow-band High-IP roofing filters show their true value by cutting adjacent unwanted signals
The transceiver uses the down-conversion method
on all amateur bands, and features five types of
High-IP roofing filter. Narrow bandpass widths
selectable are 500 Hz and 270 Hz for CW opera-
tion, 2.7 kHz for SSB and 6 kHz and 15 kHz,
which are suitable for AM/FM. These filters are
automatically selected in tandem with DSP-based
settings. Of course, manual switching is possible
as well.
TS-990S MAIN BAND FRONT-END
1st Mixer
through through
Pre Amp Post Amp
1st Mixer
Roofing
Filters
270 Hz
500 Hz
2.7 kHz
6 kHz
15 kHz
CH1 B/R log MAG CH2 B/R log MAG
IF BW 100 Hz SWP 8.6 sec
Roofing filter-characteristic example BW=270 Hz
CH1 B/R log MAG CH2 B/R log MAG
IF BW 100 Hz SWP 8.6 sec
Roofing filter-characteristic example BW=500 Hz
10 dB/ REF 0 DB 10 dB/ REF 0 DB
10 dB/ REF 0 DB 10 dB/ REF 0 DB
SPAN 2 kHz SPAN 100 kHz
SPAN 3.5 kHz SPAN 100 kHz
High C/N levels are realized by dividing high frequencies using the newly developed VCO frequency division 1st local oscillator
The TS-990S Local Oscillator Circuit is an indepen-
dent configuration that combines the main receiver
and VCO Frequency Division/DDS, the sub-receiver,
DDS, transmitter and conventional PLL, with the
targeted signal system. The newly developed VCO
frequency division format is used for the 1st local
oscillator of the main receiver. The device achieves
favorable C/N characteristics that rival the DDS direct
format, and relatively spurious-free local oscillation
signals that are characteristic of the PLL format, by
oscillating and dividing the VCO at higher frequencies
than the intended frequency. It is possible to convert
TS-990S MAIN Local OSC C/N
0
-10
-20
-30
-40
-50
-60
-70
-80
-90
-100
-110
-120
Phase Noise [dBc/Hz]
-130
-140
-150
-160 100
1,000 10,000 100,000
Offset Frequency [Hz]
it to 1st IF in a pure state without leaking the target
signal as noise by reducing static noise from the local
oscillator and increasing the C/N ratio.
DDS IC AD 9951
Main receiver 1st Local Oscillator C/N Main receiver characteristic example (20m/160m)
Comes equipped with ±0.1 ppm TCXO, which combines high stability and energy saving
The standard equipment includes a TCXO (Temperature-
Compensated Crystal Oscillator), which stabilizes frequencies
at ±0.1 ppm as the standard signal source. Unlike OCXO
(Oven Controlled Crystal Oscillator), which requires warm-up
time, this device can start up quickly even from the power-off
position, while maintaining a high level of stability. It is in
compliance with European energy-saving standard Lot 6.
Power consumption in stand-by energy-saving mode is less
than 0.5 W. A BNC connector on the rear panel provides
10 MHz reference I/O.
Mode Phantom load Start-up time
Stand-by power saving
Or less
0.5 W
Normal Approx. 20 W
14.1 MHz
1.83 MHz
Approx. 40 seconds
Approx. 5 seconds
7
Page 8
HF/50MHz TRANSCEIVER TS-990S
Sub receiver
Innovation spurred by digital technology has
An already legendary Sub-receiver supports dual reception.
Two attractive features of simultaneous
reception on different bands are that
you can easily check the condition on
other bands and still easily handle
split-operation.
Sub Receiver
The sub-receiver incorporates the TS-590S receiver
Down-conversion occurs on the 160m/80m/40m/20m/15m bands*
The sub-receiver features performance that has
exceeded its class since going on sale, thus further
refining this popular receiver on the TS-590S. Be-
cause this is particularly the case on the front end,
where it employs circuit configuration that makes
down-conversion possible on the leading ve ama-
teur bands, it can be used in actual operation despite
being just a sub-receiver.
* The IF bandwidth for 160m/80m /40m/20m /15m bands is (SSB/CW/ FSK/PSK) for frequency levels 2.7 kHz or below.
more or less at dynamic range even if interference
impinges on your reception frequency, thanks to
superior close-in dynamic range properties. You can
clearly catch signals under conditions made prob-
lematic by strong close-in interference signals.
revolutionized the Kenwood sound.
Even after using narrow bandwidth lters for long periods of time,
it is still easy to hear and less tiring to listen to.
In addition to introducing AGC control using dedicated DSP,
we have further rened the Kenwood sound and reception sound quality transmitted
by radio operators worldwide by innovating the analog AGC unit
and installing numerous interference and noise elimination functions.
Such innovations have given new life to Kenwood’s legendary sound.
Roofing filters, 500 Hz, 2.7 kHz
Frequencies of 500 Hz and 2.7 kHz are standard
for sub-receiver roong lters. You can maintain a
8
Triple DSP
Page 9
HF/50MHz TRANSCEIVER TS-990S
DSP/ IF filter
Equipped with dedicated DSP for the main receiver, sub-receiver, and band scope
Kenwood continues to provide quality sound trans-
mission that is unattainable through analog circuits.
By installing the world-premiere DSP in the TS-950
and achieving IF AGC control on the TS-870, our
experience has led to the use of three DSP units, one
For main IF DSP, transmission unit ADSP-21363 clock @333 MHz
For sub IF DSP, every kind of signal processing ADSP-21369 clock @260 MHz
on each major block of the TS-990S. By distributing
the signal processing of the main IF, band scope, and
sub-IF, we have realized ample digital signal pro-
cessing power. (FM mode is AF DSP processing.)
For band scope ADSP-21363 clock @333 MHz
Advanced AGC control, fusing together digital and analog
The reception sound quality of SSB and CW is not
solely determined by audio frequency and filter
delay properties. AGC characteristics play a very
IF AGC control block diagram
RX IF
IF ADC Digital NB
Analog
AGCV DAC
AGCV
AGC DET
OUT Band ATK/REL Manager
IF Filter AutoManual Notch Band Elimination Filter
SOFT-ATK
CONT
AGC DET AGC DET
signicant role as well. The opinion of many of our
fans that “even for long periods of time they never
get tired of listening” is due to the characteris-
tics of Kenwood’s AGC. The
Demod
RX Audio
TS-990S goes a long way
in helping further refine the
Kenwood sound by innovating
not only the AGC control algo-
rithm on the DSP but also the
analog AGC unit as well.
Exacting chassis design for realizing quality sound
The sound quality of the built-in speakers is largely determined by
the chassis structure. With the TS-990S, we have been able to mini-
mize unnecessary chassis vibration through multiple simulations
from the conceptual phase. The Kenwood sound is supported not
only by circuits and DSP but also by exact chassis design.
ϕ
77 mm
Built-in speaker
Top plate oscillation simulation example
Extensive interference elimination and noise reduction functions
IF filter bandwidth variability
You can vary DSP lter bandwidth and eliminate ex-
tensive interference depending on use and condition.
You can operate it as a HI CUT/LOW CUT function
in SSB/AM/FM mode, and WIDTH/SHIFT function
in CW/FSK/SSB-DATA transmission mode.
WIDTH
You can avoid neighboring signals by varying the bandpass width.
WIDTH
Intended signal
IF filter A/B/C one-touch switch instantly
It is possible to preset a maximum of three IF lter
bandwidths and switch instantly at any time. Set for
narrow or wide,
such a function is
convenient for com-
petitions requiring
quick operations.
IF notch
You can eliminate overpowering interference signals
with a notch lter and catch intended weak signals.
You can switch between the IF auto notch and the
manual notch that
can be changed
manually, depend-
ing on the state of
interference.
SHIFT
If the interference is on one side only, you can shift the central frequency without changing bandwidth.
SHIFT
IF Manual Notch BW 400 Hz / 800 Hz
0
-20
-40
-60
Amplitude (dB)
-80
-1,000
-500 0 500 1,000
Frequency (Hz)
Target signal
Band elimination filter function
The lter is capable of varying the stopband band-
width and the amount of loss. When signals that
interfere with the target signal multiply, this is a
convenient func-
tion for operations
such as dampen-
ing interference
signals, even if it
cuts down some of
the target signal.
Band Elimination Filter
0
-20
-40
-60
Amplitude (dB)
-80
-1,000
-500 0 500 1,000
Frequency (Hz)
The noise blanker function (NB1/NB2) is equipped with digital/analog 2 format
Equipped with an analog noise blanker (NB1) which
is considered effective against weak noise, and a
digital noise blanker (NB2). Choose the NB1 or
NB2 based on noise type and reception condition.
With NB1, stable noise reduction is possible without
depending on reception bandwidth. NB2 is effective
against noise that cannot be tracked by an analog
noise blanker. Plus, both the NB1 and NB2 can be
used simultaneously with the TS-990S.
DSP-based noise reduction function (NR1/NR2)
The device is also equipped with two types of noise
reduction format—NR1 and NR2. An optimal noise
reduction format is applied to each reception mode
for NR1. And for NR2, SPAC method is applied
which is more effective in CW operation.
Other extensive interference elimination and noise
<
reduction functions
Beat cancel function (BC1/BC2)
The beat cancel function is effective against relatively weak, multiple beats, whereas the IF auto notch is effective against strong beats.
Audio peak filter
You can vary bandpass width of pitch tone when there are carrier receptions like CW and FSK. FSK is compatible with mark and space frequencies.
>
9
Page 10
HF/50MHz TRANSCEIVER TS-990S
Transmission unit /cooling
Transmitter performance, featuring high-scale specifications, can withstand long periods of operation at full power.
Operating stably even when continually working over long periods of time,
such as in competitions.
Transmit
High reliability design promises stable operation at 200 W
The POWER MOS FET VRF150MP runs at 50 V in
push-pull. You can obtain a stable output of 200 W
on all bands. You achieve superior IMD properties
by pursuing bias and matching conditions in order
3rd order TX IMD 14.2 MHz / 200 W
-10
-30
to fully exploit the FET attributes. Further, you can
realize Kenwood’s distinctive tone by amplifying
the clean modulated signal produced by DSP with
an amplier that exhibits excellent linearity.
Built-in automatic antenna tuner capable of high-speed operation
The built-in automatic antenna tuner is a preset
type that covers amateur band frequencies rang-
ing from 160m~6m, and is completely operable
during receive. The tuner is capable of rapid
QSY based on instantaneous band change, using
a relay system known for high-speed operations.
The relays, capacitors, and inductors use large-
sized components that are able to bear the 200 W
output.
It is outfitted with four antenna terminals, which can be set independently on amateur bands, whether main band or sub band. The reception input and output terminals can be used for reception dedicated antennas, antenna output for external reception devices, and external BPF connections. It is usable with either the main band or the sub band.
ANT
1 2 3 4
MAIN BAND ANT Selector
SUB BAND ANT Selector
AT
RX OUT RX IN
MAIN RX ANT
OFF
RX
ON
SUB RX ANT
TX
OFF
ON
Cooling system to send a sufficient volume of air to each unit
Cooling is very important to obtain a stable output
of 200 W. Heat dissipation efciency is increased
in the TS-990S through a large n-type aluminum
heat sink. An independent variable-speed fan is
provided for the switching power supply, final
unit, and antenna tuner, cooling each unit with a
sufcient air supply. The switching power supply
and the nal unit have twin cooling fans. Noise is
reduced by controlling the fan speed according to
the temperature.
MAIN BAND RECEIVER
SUB BAND RECEIVER
Transmission Unit
-50
-70
-90
SPAN 10 kHz10 dB / div
Thermal Simulation Example
To dissipate the heat of the 200 W final, we used swage fins instead of the conventional extruded aluminum fins. Using CAE analysis, we designed the optimal fin shape and size for heat dissipation.
10
Page 11
HF/50MHz TRANSCEIVER TS-990S
Dual Display
Fitted with dual TFT displays for an intuitive situational awareness.
The combination of two displays, main and sub band, allows you to simultaneously
monitor the target signal and the surrounding area with minimal eye movement.
Dual display
Monitor the area surrounding the target signal with the main display
Main display
The main display shows basic information about the
frequency, mode, meter, and other functions, as well
as the on/off status of the other accessory functions.
You can also view internal parameter settings and
memory lists. In addition, it features a band scope
function that allows you to monitor band status. Ex-
ecute fast sweeps with FFT processing using DSP.
Switch to different view modes such as waterfall
and reception/transmission equalizer views.
Sub band display monitors the target signal itself
The 3.5” TFT sub band display is located above the
main knob, which not only reduces eye movement
in reading the frequency, but also allows you to
monitor the target signal itself by displaying the
demodulated audio spectrum. In addition, filter
Normal display
Dual frequency display Basic screen
Single frequency display with virtual dial
When you are in the mood for a change, how about these display modes?
Main display
Magnified frequency display
Dual frequency display
Single frequency display
effects can be displayed on the easy-to-see sub band
display, allowing for intuitive operation. You can
switch the sub band display among the four different
view modes below according to your intention.
Sub band display
Simultaneous display
FSK mode
PSK mode
Touch-sensitive main screen
Main display example views
Equalizer viewWaterfall view RTTY Reception view
Wide dial display (Reception specific)
TS-940 type displayTS-930 type display
Analog dial display
Simply touch the main screen for quick QSY.
11
Page 12
HF/50MHz TRANSCEIVER TS-990S
Operability
Comfortable operational performance that you can control at will.
The panel layout, familiar to Kenwood users, allows for intuitive operation.
It’s sure to win you over, increasing the accuracy of your operations
and allowing you to develop greater familiarity with the equipment.
The new frequency function can be operated intuitively
You can use the frequency function that switches
legacy VFO A/VFO B by switching the main and
sub band. Turn the sub band reception on and off us-
ing the RX key on top of the main knob, and switch
between simplex and split using the TX key. A
single glance at the LED lighting lets you know the
current status.
MAIN BAND RX / TX key
The new split function allows you to use quick settings
Similar to the legacy
series, you can add
functions via M S
and M/S giving a
dual-action quick-
split setup.
1. Hold down the Sub Band TX key, and the split LED will flash.
2. When the transmission frequency is set.
To set 2UP, simply press 2 on the numeric keypad, and the sub band VFO will change +2 kHz from the main reception frequency; split set up is now complete. To set 1DOWN, press 0 and then 1 on the numeric keypad, and you can set increments of 1 kHz from±1~9 kHz.
SUB BAND
RX / TX key
2 . Searching for a transmis
-sion frequency
Operate the sub band knob to determine the transmission frequency, press the TX key, and setup is complete. Coarse adjustment is also possible by tapping a likely vacant frequency on the main scope.
Control
12
You can also input split and sub band reception states into memory
Memory for a maximum of 120 channels is avail-
able. In addition to the repeater frequency, you can
also preset beacons and transmission stations. You
can easily call up the states of simultaneous dual
reception using the dual channel memory.
Number of Memory Channels
Standard Memory: 100 Channels Interval Specified Memory: 10 Channels Extended Memory: 10 Channels
Page 13
Commander TH-D72A/ TM-D710A 440 MHz/144 MHz
Transporter TH-D72A/ TM-D710A 440 MHz/144 MHz
HF Transceiver
TS-990 S
440 MHz band
Confirmation of HF f requency
144 MHz band
HF receive audio
440 MHz band
Voice signals, Control signals
COM connector
MIC
HF antenna
Transporter Commander
ø3.5 mm
EXT SP
HF/50MHz TRANSCEIVER TS-990S
Useful functions
Conveniently located interference elimination controls of the sub-receiver
The dedicated sub-receiver has extensive interfer-
ence elimination capability and is conveniently
located to the right side of the main panel. Access
the knobs and keys you need without hesitation.
Share the use of main and sub band variable encod-
ers by switching the operations object. An LED is lit
when operating the sub band to prevent accidental
operation (this can also be dedicated to the main
encoder variable bandwidth). Other functions have
been significantly upgraded in the TS-990S from
the TS-590S, including band elimination filters,
APF, mute, the addition of slope switching in the
DSP IF FILTER, independent AGC OFF key, and
simultaneous use of NB1/NB2.
Sub-receiver with extensive interference elimination controls centered on the right side of the main panel.
Useful functions positioned around the main and sub band knob
Frequently used functions are centrally placed in the
immediate vicinity of the main and sub band knob.
Supporting quick operation for radio sporting.
FIL/SEL:
Preset the bandpass with 2 or 3 widths of the DSP IF filter for quick WIDE/NAR switching operations.
CW T (CW Tune):
Automatic tuning makes the target signal turn into pitch frequency at a press of the CW signal key.
FINE:
The frequency change unit of the tuning knob can be set to 1/10 of the original unit
VOICE:
The PF key is usually for voice trans­mission, but you can also assign a
LOCK:
F. LOCK Key. Useful when used in combination with TF-SET.
different function to it.
Increased user-friendliness by placing two USB ports on the front panel
We equipped the front panel with two USB ports,
a key jack, microphone jack and a headphone jack.
Use USB memory or
a keyboard.
Firmware updates by USB
Switch to update mode and insert USB memory into
the USB-A port on the front panel, and the update
will automatically begin. Or access your USB mem-
ory from your PC by connecting your PC via USB
cable to the USB-B port on the rear panel, switch
to update mode, and a folder named TS-990 will
appear on your computer.
DATA mode supported by external I/O switching
There are a variety of I/O interfaces, including the
microphone jack, analog audio input and output,
USB audio interface, and optical digital interface.
By combining DATA mode (1-3) with SSB/FM/AM
modes, it is possible to easily switch between an
external device for modulation and demodulation.
Switch between DATA VOX function and mute for
each modulated line.
Transmit and receive DSP equalizers
In addition to the legacy presets, up to a maximum
of three user settings can be congured. You can store
the equalizer settings used for each mode and enjoy
a very comfortable
rag-chew session
with others.
RX equalizer
Voice guidance / recording function
Equipped with voice guidance for frequencies,
key control, and setting. You can also record and
replay your message.
Remote control the TS-990S from your PC
Using the ARCP-990 software (radio control soft-
ware), you can control most functions from your PC.
Control the memory channel, settings, and functions
using your PC.
Download the free
software from the
Kenwood website.
ARCP-990
example views
Kenwood SKY COMMAND SYSTEM II
Enables full-duplex operation with improved
functionality such as visual confirmation of HF
frequency on the LCD panel. Control via TNC
(AX.25) enables more access to HF functions: XIT,
mode switching, split-frequency operations on/off,
memory shift, and frequency step selection. The
transporter sends out its pre-programmed call sign
via CW every 10 minutes.
*Kenwood SKY COMMAND SYSTEM II uses a pair of TH-D72A/ TM-D710A transceivers.
TS-990S is limited to the following functions in the operation of the current KSS.
Operation Commander [A / B] in the TS-990S is equivalent to [M / S]. Memory channel is simplex operation only. Remote power On/Off is not available on Standby State Low Power
Consumption mode.
Control to the main band operation only.
Note: Refer to applicable Amateur Radio regulations to check whether you are permitted to use this function.
13
Page 14
HF/50MHz TRANSCEIVER TS-990S
Front/Back Panel
Front Panel
Front Panel
Headphone Jack (ϕ6.3 mm)
Paddle Keyer (ϕ6.3 mm)
USB Connector (USB-B):
PC Control, USB Audio
Microphone Jack (8 Pin Metal Type)
Back Panel
Back Panel
Antenna Connector ×4
RX IN Connector (RCA): Receive Only Antenna Terminal
RX OUT Connector (RCA): External Receiver
Connection Terminal
Key Jack (ϕ6.3 mm): For Paddle, Straight Key, and PC Keying
ACC2 Connector (13 Pin DIN): Audio I/O and Other
Accessories Connection
Remote Connector (7 Pin DIN): Linear Amplifier Connection
Meter Jack (ϕ3.5 mm): Analog Meter Connection
Drive Connector (RCA): Drive Output
Ground Terminal
Standard External I/O Terminal (BNC): 10 MHz
Front/Rear Panel
14
AC Power Supply Connector (3 Pin)
AT Connector (6 Pin): External Antenna Tuner Connection
Keypad Jack (ϕ3.5 mm): Function Key Pad Connection
COM Connector (D-SUB 9 Pin): RS-232C
Optical Connector Input Terminal (EIAJ Optical)
Optical Connector Output Terminal (EIAJ Optical)
External Speaker Jack 1 (ϕ3.5 mm)
External Speaker Jack 2 (ϕ3.5 mm)
USB Connector (USB-B): PC Control, USB Audio
Display Connector (DVI-I): External Display
Connection Terminal
LAN Connector (RJ-45): PC Control, Time Correction (NTP)
Dimensions
)
*
6.50
7.17 (7.91
*At front leg up position
7.87
TS-990S
25.98
SP-990
18.11
15.75
17.68
11.81
12.05 Unit: in
Page 15
Main Options TS-990S Specifications
MC-90
Deluxe Desktop Microphone
MC-43S
Hand Microphone
MC-60A
Desk Microphone
HS-5*1
Open-Air Deluxe Headphones
HS-6*1
Light Weight Headphones
ARCP-990
Radio Control Program
*Freeware Freeware available for download from Kenwood website starting late March, 2013
HS-5 and HS-6 are monaural. We recommend using stereo headphones to fully utilize
1:
*
simultaneous dual reception function of the main unit.
SP-990
External Speaker
NEW
ARHP-990
Radio Host Program
NEWNEW
*Freeware Freeware available for download from Kenwood website starting late March, 2013
General
160m band 1.8 ~ 2.0 MHz
80m band
60m band
40m band
Frequency range (Transmitter)
Frequency range (Receiver)
Mode
Frequency stability Within ±0.1 ppm 32 °F~122 °F (0 °C ~ +50 °C )
Antenna impedance 50
Antenna tuner load range
Standard voltage AC 120 V (60 Hz)
Supply voltage range AC 90 V ~ 132 V / 180 V ~ 264 V
Power consumption
Usable temperature range 32 °F~122 °F(0 °C~+50 °C)
Dimensions
Weight Approx. 54.01 lbs (24.5 kg)
Transmitter
Output power
Modulation SSB:Balanced, AM:Low Power, FM:Reactance
Maximum frequency deviation (FM)
Spurious emissions
Carrier suppression -60 dB or less
Unwanted sideband suppression -60 dB or less
Transmit frequency response Within -6 dB (300 ~ 2700 Hz)
Microphone impedance 600
XIT variable range ±9.999 kHz
30m band 10.1 ~ 10.15 MHz
20m band 14.0 ~ 14.35 MHz
17m band
15m band 21.0 ~ 21.45 MHz
12m band 24.89 ~ 24.99 MHz
10m band 28.0 ~ 29.7 MHz
6m band 50.0 ~ 54.0 MHz
At transmit (maximum)
At receive (no signal)
Without projection
Include projection
At front leg up position
CW/SSB/FSK/ PSK/FM (AM)
3.5 ~ 4.0 MHz
5.1675, 5.25 ~ 5.45 MHz
7.0 ~ 7.3 MHz
18.068 ~ 18.168 MHz
0.13 ~ 30 MHz, 50 ~ 54 MHz*
VFO: Continuous 30 kHz ~ 60 MHz
A1A (CW), J3E (SSB), F1B (FSK), G1B (PSK), A3E (AM), F3E (FM)
Ω
16.7 Ω ~ 150
720 VA or less
120 VA or less
W18.11 x H6.50 x D15.75 in( W460 x H165 x D400 mm)
W18.11 x H7.17 x D17.68 in( W460 x H182 x D449 mm)
front panel: H7.91 in(201 mm ) rear panel: H6.81 in(173 mm)
200 W (50 W
wide: ±5 kHz or less, narrow: ±2.5 kHz or less
HF (Harmonics) : -60 dB or less
HF (others) : -50 dB or less
50 MHz: -66 dB or less
Ω
)
Ω
1
HF/50MHz TRANSCEIVER TS-990S
Receiver
Circuit type
Intermediate frequency
Sensitivity (TYP)
Image Rejection Ratio (50 MHz) 70 dB (60 dB) or less
IF Rejection Ratio 70 dB or less
Selectivity
XIT variable range ±9.999 kHz
Notch filter attenuation 60 dB or more (Auto), 70 dB or more (Manual)
Beat cancel attenuation 40 dB or more
Audio output 1.5 W or more (8 Ω)
Audio output impedance 8
*1 MAIN BAND: Spec. guaranteed in amateur band 160m through 6m
In 160m/80m/40m/20m /15m Amateur band, IF band width 2.7 kHz or less (SSB, CW, FSK, PSK)
*2 *3 Except in above *2
Internal beat may occur during amateur radio band reception depending on combination of main band and sub band frequencies of a main unit. Spurious signal other than reception signal may appear on band scope (waterfall view) too.
1st IF 8.248 MHz 11.374 MHz 73.095 MHz
2nd IF (FM) 24 kHz/ (455 kHz) 24 kHz 10.695 MHz
3rd IF (FM) - -
SSB, CW, FSK, PSK (S/N 10 dB)
AM (S/N 10 dB)
FM (12 dB SINAD)
SSB (LO:200 / HI:2800 Hz)
CW, FSK, PSK (WIDTH:500 Hz)
AM (LO:100 / HI:3000 Hz)
FM
Main Sub1
Double superheterodyne
0.5 μV (0.13 ~ 0.522 MHz)
4 μV (0.522 ~ 1.705 MHz)
0.2 μV (1.705 ~ 24.5 MHz)
0.13 μV (24.5 ~ 30 MHz)
0.13 μV (50 ~ 54 MHz)
6.3 μV (0.13 ~ 0.522 MHz)
32 μV (0.522 ~ 1.705 MHz)
2 μV (1.705 ~ 24.5 MHz)
1.3 μV (24.5 ~ 30 MHz)
1.3 μV (50 ~ 54 MHz)
0.22 μV (28 ~ 30 MHz)
0.22 μV (50 ~ 54 MHz)
2.4 kHz or more (-6 dB)
4.4 kHz or less (-60 dB)
500 Hz or more (-6 dB)
1.2 kHz or less (-60 dB)
6.0 kHz or more (-6 dB)
12 kHz or less (-50 dB)
12 kHz or more (-6 dB)
25 kHz or less (-50 dB)
Ω
Options/ Specifications
2
*
Double superheterodyne
Sub2
Triple superheterodyne
24 kHz / (455 kHz)
3
*
15
Page 16
Communications Division Headquarters
3970 Johns Creek Court, Ste. 100 Suwanee, GA 30024, U.S.A.
*Alterations may be made without notice to improve the ratings or the design of the device. *The photographic and printing processes may cause the coloration of the device to appear different from that of the actual device.
www.kenwoodusa.com
ADS#04513 Printed In USA
Loading...