The Pattern of Perfection Continues
110dB dynamic range and
+40dBm 3rd order Intercept Point (IP3)
The IP3 performance of a radio can be improved by sacrificing sensitivity, but Icom considers this a poor choice. To achieve REAL high-performance, Icom reviewed all of the analog receiver circuitry. The IC-7700 employs mechanical relay BPF switching, a digitally tuned pre-selector, and three Hi-spec 1st IF filters (roofing filter) in a Dynamic range characteristics (in 14MHz band) clean and simple double-conversion superheterodyne design. By balancing the analog and DSP functions, the IC-7700 provides superior sensitivity simultaneously with a superb dynamic range of 110dB, and +40 dBm IP3 (even in USB mode with 2.4 kHz filter bandwidth)..
Better than +110dBm 2nd order intercept point (IP2)
An IP2 point of more than +110 dBm* means the 2nd order distortion from strong broadcast stations will be completely eliminated. The endless pursuit of leading analog circuit engineering makes it possible to achieve this leading edge level of performance.
* Measurements were made using custom equipment, due to the limits of normal signal generators (SG) and duplexers to +85 dBm. The IP2 figure is a typical value.
Double conversion superheterodyne system
While multiple IF stages can become a source of distortion products and spurious responses, the IC-7700 utilizes Icom’s original image-rejection mixers in a simple double conversion superheterodyne. This reduces distortion and produces a much cleaner audio signal compared to triple or quadruple superheterodyne receivers.
High specification inband IMD
In-band IMD (Intermodulation Distortion) creates undesired spurious signals as a consequence of non-linear processing of multiple signals. All (2nd, 3rd or even higher) orders of IMD performance are superior in the IC-7700. The improvement will be especially evident in CW mode. You’ll notice the difference as you copy weak signals without internal distortion or noise.
Inband IMD characteristics
Band pass filter
While some may lead you to believe that coils and capacitors are all created equal, at Icom we know design excellence. Rather than using switching diodes that can introduce distortion, the IC-7700 design utilizes high-grade mechanical relays along with large capacitors and toroidal coils; resistant to magnetic saturation, providing superior linearity, and greatly reducing distortion.
DIGI-SEL (Digital pre-selector)
The DIGI-SEL (digital pre-selector) is a very narrow, user adjustable, pass band filter designed to automatically track the operating frequency, attenuating interference from out-of-band signals. While the pre-selector’s pass-band remains centered on the operating frequency, on the fly adjustments are possible via front panel controls. The DIGI-SEL is especially useful for multi-transmitter operation and near strong broadcast stations by reducing the 2nd, 3rd, and even higher order IMD components from other stations.
The IC-7700 has a total of 4 pre-amplifiers, two for the HF bands and two for the 50MHz band. The purpose of pre-amplifiers is to improve receiver sensitivity for the pursuit of higher gain and a better noise figure. The IC-7700 employs a noiseless feedback design with push-pull amplifiers. Using feedback transformers, the pre-amplifiers provide a high IP3 while keeping a low noise figure.
The 1st mixer stage is driven with a signal from the high-drive Local Oscillator with excellent C/N. A 16V p-p of high-level LO signal is applied to the mixer to improve intermodulation characteristics while avoiding a parasitic oscillation or noise.
Three Hi-Spec 1st IF filters (Roofing Filter)*1
The IC-7700 employs three Hi-Spec 1st IF filters (roofing filters) of 15kHz, 6kHz and 3kHz before the 1st IF amplifier. Icom ordered special customized high specification devices to improve IMD and achieve better impedance characteristics. As a result, the 3kHz 1st IF filter provides approximately 134dB*2 of blocking dynamic range and allows you to pull out a weak signal in the presence of strong adjacent signals.
*1 Icom calls the roofing filters “Hi-spec 1st IF filters”, because their performance is much better than regular IF filters.
*2 At 14.1MHz receive, with 5kHz separation of interference signal.
2nd-stage image rejection mixer
The 2nd-stage image rejection mixer processes signals to reject spurious image responses. In conjunction with the Hi-spec 1st IF filters (roofing filters), image rejection of greater than 100dB is realized. The analog image rejection mixer’s linearity makes it possible to use a simplified receiver design. This improves the distortion performance of the receiver.
50MHz band preamplifier and mixer
The IC-7700 was designed with the 6m aficionado in mind. Rather than sharing circuits used for HF, a separate preamplifier and mixer was designed especially for 6m. This greatly improves the receiver sensitivity by reducing intermodulation characteristics, enabling weak signal works without distortion or interference from strong signals in the band.
Two AGC Loops
The IC-7700 has two AGC loops. The AGC voltages detected in front of and behind the digital IF filter in the DSP unit. The first AGC loop prevents the saturation of the 1st IF amplifier from strong signals outside the pass-band filter, and improves the dynamic range in the presence of strong adjacent signals. The other AGC loop detects the AGC voltage at the digital IF filter output which has only passed the intended signal and draws the full potential from the digital IF filter.
The IC-7700 accommodates both the “on-the-fly” operator as well as the most avid “tweaker” operator by providing tunable AGC preset and manual AGC level controls. The AGC time constants can be set in the 3 presets (slow, medium and fast), adjustable from 0.1–6 sec. (0.3–8 sec. in AM) delay. Then the addition of the AGC VR control enables the user to “tweak” or fine tune the AGC reaction time.
High stability OCXO unit
Frequency control of the IC-7700 is maintained by the high stability Oven Controlled Crystal Oscillator. The OCXO achieves frequency stability of ±0.05ppm across the specified temperature range, meaning that the frequency will deviate only 5Hz out of every 100 MHz! This specification is equivalent to that of specialized measuring equipment such as signal generators or spectrum analyzers. Also, a 10MHz reference signal can be input to the IC-7700 or output for use by external equipment.
The well-selected components provide premium performance
Mechanical relays using gold contacts have excellent deterioration resistance and superior conductivity.
Hi-spec 1st IF filter
The IC-7700 uses custom made Hi-spec 1st IF filters (roofing filters), selected especially for excellent IMD characteristics.
To reduce secondary distortion, large coils and capacitors are used in the high-amplitude filter switching circuits. The use of non-linear semiconductors is minimized.
The transmitter and receiver use a 32-bit floating point DSP, offering the high performance of 1800 MFLOPS processing. Also, the spectrum scope DSP achieves 1200 MFLOPS of peak performance.
The power amplifiers use a combination of push-pull final with two MRF150 transistors, having proven reliability in ultra professional communications. These devices generate a stable 200W of output power from HF to 54MHz.
7-inch wide color TFT LCD
While Icom’s RF engineering team reviewed receiver designs for how the IC-7700 hears a signal, close attention was also paid to how the operator sees a signal. Details such as response time, color, resolution, and visibility were extremely important. Thus, an active matrix 7-inch (800 × 480 pixels) TFT color display was selected as the IC-7700’s display. The display provides superior performance in response time, color, resolution, visibility and more. The large display shows operating frequencies, various settings and operating conditions as well as the spectrum scope, S-meter and RTTY/PSK31 decoded messages. The S-meter shows an analog-like swinging needle that is smooth and accurate. In addition to the analog like-style meter, the IC-7700 has a digital multi-function graphic meter and edgewise meter - chose your favorite style! Further more, the IC-7700 has a VGA connector for an external monitor and an S-meter connector for an external analog S-meter.
USB ports on the front panel
Two USB ports on the front panel allows you to easily connect a USB type keyboard or USB memory stick to save transceiver settings, update firmware, or transfer settings to other IC-7700. Making big scores means keeping your team fresh on those long DX-peditions or Multi-Operators contests. Swapping out operators usually involves time-wasting radio tweaks, because each operator has their own favorite settings to best match their operating style. This all changes with the USB drives! Prior to a contest, operators may record their preferred IC-7700 settings such as filter, Digital Voice Recorder (DVR) memories, antenna settings, etc. When it’s their turn to operate, simply insert their USB Drive into the IC-7700. In a flash, the IC-7700 is now “their rig”, and there’s nearly zero down time!
RTTY /PSK31 operation without PC connection
The IC-7700 has a built-in RTTY and PSK31 modulator/demodulator. By simply connecting a USB key-board, you can immediately start enjoying these modes. In addition, you can pre-program transmit messages in the internal message memory or a USB memory stick and transmit them even without typing a message from a USB keyboard. Also, received messages can be stored to a USB memory stick and transferred to your PC.
4 antenna connectors
The IC-7700 has 4 antenna connectors (ANT1 to ANT4) with an automatic antenna selector. Once you program the operating bands in each antenna memory, the IC-7700 will automatically select the antenna as you change the operating band. The usage type for each antenna can be set for Tx/Rx use, Rx only* use and off line. The antenna switch button allows you to change the operating antenna temporarily.
* Rx setting is available for ANT4 only.
Real time spectrum scope
With a dedicated DSP unit, the IC-7700 spectrum scope achieves 80dB of dynamic range at the signal input level. It also improves the scope response time and signal resolution, so that it is possible to accurately tune to the intended signal as you see it on the spectrum scope screen. The spectrum scope range can be set independently from the receiving frequency. You can monitor band conditions between the selected sweep edges (Fixed mode), as well as sweep a selected band width centered on the receiving frequency (Center mode). In addition, the scope has useful functions including scope attenuator (10dB/20dB/30dB), 2 types of marker (Transmit, Receiver) and Max hold function. The mini scope function is convenient for continuous monitoring even while adjusting the set mode.
Digital twin PBT
The digital twin PBT eliminates interference and noise from signals above and below your frequency by changing the IF filter bandwidth. The IF shift function allows you to shift or move the IF passband to either side to more accurately receive the signal. The passband width, shift direction and steps (50Hz) are graphically displayed on the LCD. You can reproduce the signal as you like to hear it.
Digital IF filter
The DSP-based digital IF filter of the IC-7700 rejects signals out of the pass band, and keeps the desired signal free of any distortion or degradation of quality. Depending on the operating situation, for example handling a pile-up or receiving a very weak signal, you can flexibly change sharp and soft filter shapes or reduce or shift the filter width, even while receiving a signal.
Manual notch filter and auto notch filter
The manual notch filter controlled by the DSP has extremely sharp characteristics and provides more than 70dB of attenuation. The notch filter width is selectable from 3 types, allowing you to select the suitable filter width for the operating mode and band. It eliminates persistent beat tones without affecting the AGC loop function. In addition, the automatic notch filter tracks and eliminates two or more interfering signals such as beat signals and carriers or tones from digital signals.
Variable noise blanker
The noise blanker provides significant reduction of pulse-type noise. The noise blanker allows you to change the threshold level as well as blank duration parameter and attenuation level.
The noise reduction separates the target signal from random noise components. By using the excellent performance of the 32-bit floating point DSP, this separation is made immediately without a delay and extracts signals from noise components. The noise reduction suppression level is variable in 16 steps to adjust the balance between the S/N ratio and clarity.
Digital voice recorder
The digital voice recorder (DVR) is a convenient function for contests, DX-peditions, portable operation and even regular operation. Record your callsign, CQ, or other station information into a memory. Easy-to-access independent “Record (REC)” and “Play” buttons are on the front panel.
RX audio HPF/LPF setting
The IC-7700 has a separate RX HPF/LPF setting for each mode. The high-pass filter and low-pass filter are adjustable for each mode.
S/P DIF interface
The IC-7700 has the S/P DIF optical digital interface for audio output and modulation input. By connecting an external digital device* through a connecting cable, flexible audio tuning is possible, while keeping good sound quality.
* Third party connecting cable, PC with sound card supporting S/P DIF, and software are required.
SSB data mode
When you narrow the IF filter passband to 500Hz or less in SSB mode or SSB-data mode operation, the IC-7700 automatically selects special band pass filters (BPF). The BPF has a very sharp edge like a CW filter for better rejection of interfering signals. Along with the BPF setting, the IC-7700 has a 1/4-tuning step function for easier tuning operation.
Firmware upgrade for maintaining the best performance
Icom will always provide the latest firmware for keeping the radio up to date. Just download the latest firmware from the Icom web site whenever a new version has been uploaded, and update your IC-7700 via the USB memory.
200W output power at full duty cycle, full power operation
The IC-7700 uses two MRF150 power amplifiers connected in push-pull configuration. The power amplifiers provide a reliable 200W of output power up to 54MHz. The effective quad cooling fan system makes it possible to generate 200W full power output even during full duty cycle operation. The digital PSN modulator using a DSP unit consistently reproduces an outstanding signal-to-noise ratio, providing clean and clear transmission. The PA amplifier uses a 48V DC supply to provide output power with low IMD on all bands.
Microphone equalizer and adjustable transmit bandwidth
The built-in audio equalizer has separate bass and treble adjustments for a total of 121 combinations, so you can adjust the tonal quality of your voice as your want. In addition, the transmit bandwidth is selectable from 100, 200, 300, 500Hz at the lowpass edge, and 2500, 2700, 2800, 2900Hz at the high-pass edge, respectively. Three types of high and low combinations can be stored in the memory as favorite settings. With this flexibility of DSP-based waveform shaping, transmit audio quality is adjustable to your preference.
High speed automatic
antenna tuner covering HF to 50MHz band
The high speed automatic antenna tuner automatically performs tuning operations and memorizes the setting in 100kHz steps. Once the tuner memorizes the setting depending on frequency, the tuner recalls the setting and matches the antenna instantly. In addition, high-voltage parts allow you reliable, continuous 200W operation even at high duty cycles.
The IC-7700’s memory keyer has 4 channels with 55 characters for CW, 8 channels with 70 characters for RTTY and 8 channels with 70 characters for PSK31 operation. The memory keyer is convenient for programming station information, calling CQ and call sign for a DX-pedition or contest. Also, the CW memory keyer has other time saving functions such as automatic repeat, serial contest number auto-counter, and Morse cut number functions.
- BNC type RX IN/OUT connectors for receiver antenna or external attenuator
- General coverage receiver covers from 30kHz to 60MHz
(* Some frequency bands are not guaranteed, depending on version)
- 4-step attenuator (6/12/18dB and OFF)
- Twin peak audio filter for RTTY operation
- Low distortion RF speech compressor
- Tx monitor
- 50 CTCSS tone encoder and decoder
- All mode power control
- VOX capability (Voice operated transmission)
- Multi-function electronic keyer with adjustable keying speed, dot-dash ratio and paddle polarity and bug key function
- DSP controlled CW keying waveform shaping
- Frequency lock function for split operation
- The normal (default) CW carrier point is selectable from USB and LSB
- APF (audio peak filter) function with soft/sharp filter shape
- Double key jack system
- Full break-in function
- CW pitch control from 300 to 900Hz
- CW/AM auto tuning function
- Set mode function for flexible and speedy setting
- Memory pad stores up to 10 (or 5) operating frequencies
- Quick split function enables split operation with a single action
- SSB/CW synchronous tuning
- Single knob control from squelch volume to RF gain
- RIT and ∂Tx variable up to ±9.999kHz
- Quick RIT/∂TX clear function
- UTC/Local Clock and timer function
- 1Hz pitch tuning and 1Hz indication
- 101 memory channels with 10-character comment
- Built-in voice synthesizer announces operating frequency, mode and receiving signal strength
- Programmed scan, memory scan, select memory scan, VSC scan and ∂F scan
- Auto tuning step function
- Band edge beep
- Main dial tension control and dial lock
- CI-V interface capability and RS-232C connector for PC connection
- BNC type Transverter connector
- Triple band stacking register
- FFT scope wave averaging function
- Screen saver function
Europe, UK Version
0.030– 60.000 MHz*2
1.800– 1.999 MHz 3.500– 3.999 MHz
5.3305, 5.3465, 5.3665, 5.3715, 5.4035 MHz*3
7.000– 7.300 MHz 10.100–10.150 MHz
14.000– 14.350 MHz 18.068–18.168 MHz
21.000– 21.450 MHz 24.890–24.990 MHz
28.000– 29.700 MHz 50.000–54.000 MHz
0.030– 60.000 MHz*2
1.810– 1.999 MHz 3.500– 3.800 MHz
7.000– 7.100 MHz (Europe version)
7.000– 7.200 MHz (UK version)
10.100– 10.150 MHz 14.000–14.350 MHz
18.068– 18.168 MHz 21.000–21.450 MHz
24.890– 24.990 MHz 28.000–29.700 MHz
50.000– 52.000 MHz
*1 Frequency ranges vary depending on version.
*2 Some frequency ranges are not guaranteed.
*3 Carrier point frequency. USB mode only.
||USB, LSB, CW, RTTY, PSK31, AM, FM
|Number of channels
||101 (99 regular, 2 scan edges)
||50Ω unbalanced (Tuner off)
||SO-239×4 and BNC×1
|Power supply requirement
||0°C to +50°C; +32°F to +122°F
||Less than ±0.05ppm
(0°C to +50°C, after warm up)
||1 Hz (minimum)
Tx Max. power
(projections not included)
|425 × 149 × 437 mm;
1623⁄32 × 57⁄8×177⁄32 in
SSB, CW, RTTY, PSK31, FM
Digital low power modulation
Digital phase modulation
More than 60dB (HF bands)
More than 70dB (50 MHz band)
More than 50dB (HF bands)
More than 66dB (50 MHz band)
||More than 63dB
|Unwanted sideband suppression
||More than 80dB
|TX variable range
||600Ω (8-pin connector)
||Double conversion super-heterodyne system
SSB, CW, RTTY
(BW: 2.4 kHz at 10dB S/N)
AM (BW: 6k Hz at 10dB S/N)
FM (BW: 15 kHz at 12dB SINAD)
0.1–1.799 MHz 0.5μV (Pre-amp 1 ON)
1.8–29.999 MHz 0.16μV (Pre-amp 1 ON)
50.0–54.0 MHz 0.13μV (Pre-amp 2 ON)
0.1–1.799 MHz 6.3μV (Pre-amp 1 ON)
1.8–29.999 MHz 2μV (Pre-amp 1 ON)
50.0–54.0 MHz 1μV (Pre-amp 2 ON)
28–29.990 MHz 0.5μV (Pre-amp 1 ON)
50.0–54.0 MHz 0.32μV (Pre-amp 2 ON)
|Squelch sensitivity (Pre-amp: OFF)
SSB, CW, RTTY, PSK31
Less than 5.6μV
Less than 1μV
|Selectivity (representative value)
SSB, RTTY (BW: 2.4 kHz)
CW (BW: 500 Hz)
AM (BW: 6 kHz)
FM (BW: 15 kHz)
More than 2.4 kHz/–3dB
Less than 3.6 kHz/–60dB
More than 500 Hz/–3dB
Less than 700 Hz/–60dB
More than 6.0 kHz/–3dB
Less than 15.0 kHz/–60dB
More than 12.0 kHz/–6dB
Less than 20.0 kHz/–60dB
|Spurious and image rejection ratio
||More than 70dB
|Audio output power
||More than 2.6W at 10% distortion with an 8Ω load
|RIT variable range
||3-conductor 6.35 (d) mm (1⁄4″)
|EXT SP connector
||2-conductor 3.5 (d) mm (1⁄8″) /8Ω