Krell
Krell Multi-Channel Amplifiers
“XD” is a classic example of Krell’s continuous R&D efforts reaping benefits across multiple product lines. During the development of the K-300i Integrated Amplifier Krell discovered substantial sonic improvements by lowering the output impedance below traditional norms. So they applied this technique to their existing line of amplifiers and the improvement was so substantial that it required a unique designation, hence, XD.
- Theater 7 XD
- Chorus 4200 XD
- Chorus 5200 XD
- Chorus 7200 XD
- Trio 300 XD
Krell Theater 7 XD - Multi Channel Amplifier
Krell Class A iBias Technology
Krell's history is rich with breakthrough Class A amplifiers that have helped build the Krell legacy of offering the best sounding amplifiers available. Audiophiles have always considered Class A technology to be the best sounding operating state for amplifiers. However, despite Class A's unrivaled sound quality, it has fallen out of fashion because of recent demands to reduce power consumption and heat in home electronics products. Krell engineering took this challenge and redefined the meaning of high performance power amplifier. Our goal - unmatched performance, elegant design, and a compelling array of features. The breakthrough - a patent pending circuit delivering Class A operation without the excessive heat and wasted energy of conventional designs, housed in a striking new form factor, with network connectivity for advanced access and monitoring. The sound is open and unconstrained, in a manner that rivals live performance and the true sound of voices and instruments. Music and dialogue are reproduced with a richness, detail, and startling dynamics that fill a room.
Plainly stated, Class A designs are the most musically accurate circuit topology available. Class A amplifiers do not suffer from the inherent distortions that all Class AB amplifiers experience. In a traditional Class A design, the output transistors conduct full current at all times regardless of the actual demand from the speakers. Often, only a fraction of this power is needed to reproduce an audio signal at normal listening levels. The rest of the power is dissipated through the amplifier’s heat sinks, producing large amounts of wasted heat. With Krell's iBiasTM technology, bias is dynamically adjusted, so the output transistors receive exactly as much power - but only as much power - as they need.
Krell's iBias Class A technology allows their latest amplifiers to run in full Class A mode to full power while minimizing heat generation. Previous efforts at using a "tracking" bias, while effective, only measured the incoming signal and set bias levels from this information. Krell's new patent pending iBias technology significantly elevates the effectiveness of previous designs by calculating bias from the output stage. This seemingly small change in topology results in a dramatic improvement in sound quality, especially midrange richness and purity.
The core of the technology is an innovative, patent pending design for a dynamic intelligent bias circuit. Krell's iBias Class A circuit directly measures the output current of the amplifier and adjusts the bias to the optimum level. Because iBias Class A measures the output current, the real time demands of the specific speaker connected to the amp are directly incorporated into the circuit function. In addition, iBias Class A even reduces the bias when the signal is at very low levels, making its operation undetectable by ear and even by standard amplifier measurements.
In sliding bias schemes, the circuit merely estimates how much bias is needed based on the input signal and an "assumed speaker load." Compared with iBias Class A, these sliding bias technologies are much less effective - and much less accurate.
Power Supply Highlights
Power supply technology has always been an important contributor to the Krell sound. The power supplies of their Krell iBias Class A amplifiers have been optimized for use with the iBias circuit. Depending on the model, up to four toroidal transformers feed amplifier modules that include the audio circuitry, rectifier, and power supply filtering mounted to an individual heat sink. This design shortens the electrical path from the power supply to the output transistors, reducing the overall impedance and allowing the circuit to respond faster and control the speakers even better and more accurately.
Unlike traditional Class A amplifiers, iBias Class A amps have a compact design that allows rack-mounting, making them ideal for custom installation as well as traditional audiophile systems. This convenient form factor is made possible through thermostatically controlled ventilation fans. The fans used are specifically chosen for quiet operation, and operate at the speed required to maintain the ideal internal temperature. They run only during periods of peak energy demand - when the music is at its loudest - so they are inaudible in normal use.
Network Connectivity
The new amplifiers include RJ 45 Ethernet connectivity and an internal web page that is accessible from any smartphone, tablet, or laptop. Network connectivity brings convenience, monitoring, and reporting to end users. Amplifier configuration options include display brightness and timeout. For energy conservation, the amplifiers can be programmed to power off at a preset time of inactivity. Individual channels can be muted and firmware updates can be initiated from the web server.
Once the amplifier is connected to a network router with Internet access, the amplifier's advanced protection systems are now viewable on an Internet-connected device. Excessive current, output DC, fan speeds, short circuit, and overheating are all monitored in real time. If an issue occurs, the fault is displayed on the front panel and reported on the web server interface. Emails will automatically be sent to as many as three email addresses to notify the end user and/or the dealer of the condition.
Circuitry Highlights
The new iBias circuitry is built on a foundation of core Krell circuit technologies. All signal gain is realized in the current domain using proprietary multiple-output current mirrors with extraordinary open loop linearity. Each amplifier channel uses all discrete components. There are no generic integrated circuits or op amps used anywhere. Gain is distributed among several stages, allowing each to have a large linear operating area.
Audio signal voltages are converted to current at the amplifier input, and the audio signal remains in the current domain throughout the entire amplifier.
Current mirrors in the final gain stages use a new output power device that operates at a 73% higher voltage, delivers almost 10% more current, and offers 120 watts of additional power handling capability as compared to other devices.
With this combination, the iBias amplifiers may now deliver substantially more power while using a smaller footprint. Normally used in demanding, high-bandwidth video circuits, these transistors allow the design of gain stages with superb accuracy and very low distortion. The signal path is fully complementary and fully balanced from input to output. Independent complementary pre driver and driver stages for the positive and negative output transistors make the output stages extremely fast and linear. This unique circuit is impervious to low-impedance or reactive loads; it simply drives any loudspeaker with absolute confidence, achieving the very best possible sonic results.
Most amplifiers use coupling capacitors in the signal path to block DC and prevent damaging offset voltages from reaching your speakers. Krell amplifiers are fully direct-coupled, with no capacitors in the audio signal path. This design gives the Krell amplifiers lower internal impedance, which allows firmer, more precise control of your speakers. It also provides flatter, more extended low-frequency response, because coupling capacitors not only block DC but also affect the lowest bass frequencies. Krell employs expensive, non intrusive DC servos that remove DC without impacting the musical signal. Thus, the iBias Class A amplifiers deliver the full breadth of the music with detail, impact, and space intact.
Everything Audiophiles and Home Theater Fans Could Want in an Amplifier
Krell iBias Class A amplifiers are the first to deliver the rich musicality of Class A amplifiers, the uncompromised dynamics of classic Krell amplifiers, and the efficiency and low power consumption of Class G and H amplifiers.
Because the iBias circuit eliminates crossover distortion, the amplifier is able to resolve more of the detail and micro-dynamics in even the best analog recordings. Simply put, the music breathes. Whether an iBias amplifier is called on to reproduce the extreme dynamic range of high-resolution digital files, the minute intricacies of a 45-rpm, 180-gram vinyl record, or the complexity of today’s latest blockbuster action film, it does so without altering or abating the music in any way.
The iBias amplifiers' unprecedented ability to retrieve the subtlest details gives their sound an incredible dimensionality, with an ambient, broad and extraordinarily deep soundstage. As spacious as the sound is, though, the amplifiers are still able to produce pinpoint stereo imaging if the recording calls for it.
It's all the power and control for which Krell has always been famous, with a level of resolution and musicality in the midrange and treble that has simply never been heard before.
In short, the new patent pending iBias Class A Krell amplifiers give today's audiophiles and home theater fans everything they could possibly want in an amplifier.
The Theater 7 Amp uses iBias technology to maintain Class A operation up to 100 watts into 8 ohms for the left, right, and center channels and up to 50 watts for the four surround channels. This provides the critical front channels with high bias current to produce that lush, open Class A sound while also minimizing the heat output and power consumption of the whole amplifier.
The amplifier design uses Krell Current Mode technology that is fully differential and discrete in the critical gain stages. This results in a highly linear and extended frequency response, well beyond the range of hearing, for smooth effortless highs and tight high impact bass
The power supply consists of two 700VA toroidal transformers and 160,000uF of capacitance. This is shared among all the channels so all of that power is available to the channels with the most demand.
In real world conditions the left, right, and center channels require the lion’s share of the power so this gives the Theater 7 a more effective power supply than other amplifiers that have smaller dedicated power supplies for each channel.
Chorus 4200 XD, Chorus 5200 XD, Chorus 7200 XD & Trio 300 XD Multi Channel Amplifiers
Krell Class A iBias Technology
Krell's history is rich with breakthrough Class A amplifiers that have helped build the Krell legacy of offering the best sounding amplifiers available. Audiophiles have always considered Class A technology to be the best sounding operating state for amplifiers. However, despite Class A's unrivaled sound quality, it has fallen out of fashion because of recent demands to reduce power consumption and heat in home electronics products. Krell engineering took this challenge and redefined the meaning of high performance power amplifier. Our goal - unmatched performance, elegant design, and a compelling array of features. The breakthrough - a patent pending circuit delivering Class A operation without the excessive heat and wasted energy of conventional designs, housed in a striking new form factor, with network connectivity for advanced access and monitoring. The sound is open and unconstrained, in a manner that rivals live performance and the true sound of voices and instruments. Music and dialogue are reproduced with a richness, detail, and startling dynamics that fill a room.
Plainly stated, Class A designs are the most musically accurate circuit topology available. Class A amplifiers do not suffer from the inherent distortions that all Class AB amplifiers experience. In a traditional Class A design, the output transistors conduct full current at all times regardless of the actual demand from the speakers. Often, only a fraction of this power is needed to reproduce an audio signal at normal listening levels. The rest of the power is dissipated through the amplifier’s heat sinks, producing large amounts of wasted heat. With Krell's iBiasTM technology, bias is dynamically adjusted, so the output transistors receive exactly as much power - but only as much power - as they need.
Krell's iBias Class A technology allows their latest amplifiers to run in full Class A mode to full power while minimizing heat generation. Previous efforts at using a "tracking" bias, while effective, only measured the incoming signal and set bias levels from this information. Krell's new patent pending iBias technology significantly elevates the effectiveness of previous designs by calculating bias from the output stage. This seemingly small change in topology results in a dramatic improvement in sound quality, especially midrange richness and purity.
The core of the technology is an innovative, patent pending design for a dynamic intelligent bias circuit. Krell's iBias Class A circuit directly measures the output current of the amplifier and adjusts the bias to the optimum level. Because iBias Class A measures the output current, the real time demands of the specific speaker connected to the amp are directly incorporated into the circuit function. In addition, iBias Class A even reduces the bias when the signal is at very low levels, making its operation undetectable by ear and even by standard amplifier measurements.
In sliding bias schemes, the circuit merely estimates how much bias is needed based on the input signal and an "assumed speaker load." Compared with iBias Class A, these sliding bias technologies are much less effective - and much less accurate.
Power Supply Highlights
Power supply technology has always been an important contributor to the Krell sound. The power supplies of their Krell iBias Class A amplifiers have been optimized for use with the iBias circuit. Depending on the model, up to four toroidal transformers feed amplifier modules that include the audio circuitry, rectifier, and power supply filtering mounted to an individual heat sink. This design shortens the electrical path from the power supply to the output transistors, reducing the overall impedance and allowing the circuit to respond faster and control the speakers even better and more accurately.
Unlike traditional Class A amplifiers, iBias Class A amps have a compact design that allows rack-mounting, making them ideal for custom installation as well as traditional audiophile systems. This convenient form factor is made possible through thermostatically controlled ventilation fans. The fans used are specifically chosen for quiet operation, and operate at the speed required to maintain the ideal internal temperature. They run only during periods of peak energy demand - when the music is at its loudest - so they are inaudible in normal use.
Network Connectivity
The new amplifiers include RJ 45 Ethernet connectivity and an internal web page that is accessible from any smartphone, tablet, or laptop. Network connectivity brings convenience, monitoring, and reporting to end users. Amplifier configuration options include display brightness and timeout. For energy conservation, the amplifiers can be programmed to power off at a preset time of inactivity. Individual channels can be muted and firmware updates can be initiated from the web server.
Once the amplifier is connected to a network router with Internet access, the amplifier's advanced protection systems are now viewable on an Internet-connected device. Excessive current, output DC, fan speeds, short circuit, and overheating are all monitored in real time. If an issue occurs, the fault is displayed on the front panel and reported on the web server interface. Emails will automatically be sent to as many as three email addresses to notify the end user and/or the dealer of the condition.
Circuitry Highlights
The new iBias circuitry is built on a foundation of core Krell circuit technologies. All signal gain is realized in the current domain using proprietary multiple-output current mirrors with extraordinary open loop linearity. Each amplifier channel uses all discrete components. There are no generic integrated circuits or op amps used anywhere. Gain is distributed among several stages, allowing each to have a large linear operating area.
Audio signal voltages are converted to current at the amplifier input, and the audio signal remains in the current domain throughout the entire amplifier.
Current mirrors in the final gain stages use a new output power device that operates at a 73% higher voltage, delivers almost 10% more current, and offers 120 watts of additional power handling capability as compared to other devices.
With this combination, the iBias amplifiers may now deliver substantially more power while using a smaller footprint. Normally used in demanding, high-bandwidth video circuits, these transistors allow the design of gain stages with superb accuracy and very low distortion. The signal path is fully complementary and fully balanced from input to output. Independent complementary pre driver and driver stages for the positive and negative output transistors make the output stages extremely fast and linear. This unique circuit is impervious to low-impedance or reactive loads; it simply drives any loudspeaker with absolute confidence, achieving the very best possible sonic results.
Most amplifiers use coupling capacitors in the signal path to block DC and prevent damaging offset voltages from reaching your speakers. Krell amplifiers are fully direct-coupled, with no capacitors in the audio signal path. This design gives the Krell amplifiers lower internal impedance, which allows firmer, more precise control of your speakers. It also provides flatter, more extended low-frequency response, because coupling capacitors not only block DC but also affect the lowest bass frequencies. Krell employs expensive, non intrusive DC servos that remove DC without impacting the musical signal. Thus, the iBias Class A amplifiers deliver the full breadth of the music with detail, impact, and space intact.
Everything Audiophiles and Home Theater Fans Could Want in an Amplifier
Krell iBias Class A amplifiers are the first to deliver the rich musicality of Class A amplifiers, the uncompromised dynamics of classic Krell amplifiers, and the efficiency and low power consumption of Class G and H amplifiers.
Because the iBias circuit eliminates crossover distortion, the amplifier is able to resolve more of the detail and micro-dynamics in even the best analog recordings. Simply put, the music breathes. Whether an iBias amplifier is called on to reproduce the extreme dynamic range of high-resolution digital files, the minute intricacies of a 45- rpm, 180-gram vinyl record, or the complexity of today’s latest blockbuster action film, it does so without altering or abating the music in any way.
The iBias amplifiers' unprecedented ability to retrieve the subtlest details gives their sound an incredible dimensionality, with an ambient, broad and extraordinarily deep soundstage. As spacious as the sound is, though, the amplifiers are still able to produce pinpoint stereo imaging if the recording calls for it.
It's all the power and control for which Krell has always been famous, with a level of resolution and musicality in the midrange and treble that has simply never been heard before.
In short, the new patent pending iBias Class A Krell amplifiers give today's audiophiles and home theater fans everything they could possibly want in an amplifier.
Theater 7
Frequency Response | : | 20 Hz to 20 kHz +0, –0.11 dB |
: | <3 Hz to 200 kHz +0, –3 dB | |
Signal-to-noise ratio | : | >101 dB, wideband, unweighted, referred to full power output |
: | >114 dB, “A”-weighted | |
Gain | : | 25.5 dB |
Total Harmonic distortion | : | <0.02% at 1 kHz, at 100 W, 8 Ω, two channels driven; |
: | <0.20% at 20 kHz, at 100 W, 8 Ω, two channels driven; | |
Input Impedance | : | Single-ended: 27 kΩ; |
: | Balanced: 54 kΩ; | |
Input Sensitivity | : | Single-ended or balanced: 1.50 V RMS |
Output Power, per channel | : | 120W RMS at 8 Ω, 2 channels driven |
: | 115W RMS at 8 Ω, 3 channels driven | |
: | 110W RMS at 8 Ω, 5 channels driven | |
: | 105W RMS at 8 Ω, 7 channels driven | |
: | 210W RMS at 4 Ω, 2 channels driven | |
: | 190W RMS at 4 Ω, 3 channels driven | |
: | 165W RMS at 4 Ω, 5 channels driven | |
: | 140W RMS at 4 Ω, 7 channels driven | |
Output Voltage | : | 93 V peak-to-peak |
: | 33 V RMS | |
Output Current | : | 10 A peak |
Output Impedance | : | <0.025 Ω, 20 Hz to 20 kHz |
Damping Factor | : | >320, 20 Hz to 20 kHz, referred to 8 Ω |
Power Consumption | : | Standby: 1 W |
: | Idle: 66 W | |
: | Maximum: 2000 W | |
Heat Output | : | Standby: 3.42 BTU/hr. |
: | Idle: 225 BTU/hr. | |
: | Maximum: 2200 BTU/hr. | |
Inputs | : | 7 single-ended via RCA connector |
: | 7 balanced via XLR connector | |
Outputs | : | 7 pairs five-way binding posts |
Remote Connectors | : | One 12 VDC input (12 V trigger) via 3.5 mm jack |
Dimensions | : | 43.4 x 19.4 x 53.6 cm (WxHxD) |
Weight | : | 36.4 kg (shipping) |
: | 31.8 kg (unit only) |
4200 XD 4 Channel Power Amplifier
Frequency Response | : | 20 Hz to 20 kHz +0, -0.08 dB |
: | <0.5 Hz to 100 kHz +0, –3 dB | |
Signal-to-noise ratio | : | >95 dB, wideband, unweighted, referred to full power output |
: | >115 dB, "A"-weighted | |
Gain | : | 26.2 dB |
Total Harmonic distortion | : | <0.04% at 1 kHz, at 200 W, 8 Ω |
: | <0.15% at 20 kHz, at 200 W, 8 Ω | |
Input Impedance | : | Single-ended: 100 kΩ |
: | Balanced: 200 kΩ | |
Input Sensitivity | : | Single-ended or balanced: 1.96 V RMS |
Output Power | : | 200 W RMS at 8 Ω |
: | 360 W RMS at 4 Ω | |
Output Voltage | : | 113 V peak-to-peak |
: | 40 V RMS | |
Output Current | : | 13.4 A peak |
Slew Rate | : | 40 V/μs |
Output Impedance | : | <0.038 , 20 Hz to 20 kHz |
Damping Factor | : | >210, 20 Hz to 20 kHz, referred to 8 W |
Power Consumption | : | Standby: 1 W |
: | Idle: 145 W | |
: | Maximum: 1680 W | |
Heat Output | : | Standby: 3.4 BTU/hr. |
: | Idle: 530 BTU/hr. | |
: | Maximum: 6276 BTU/hr. | |
Inputs | : | 4 single-ended via RCA connector |
: | 4 balanced via XLR connector | |
Outputs | : | 4 pairs binding posts |
Dimensions | : | 43.4 x 19.4 x 53.6 cm (WxHxD) |
Weight | : | 35 kg (unit only) |
: | 40 kg (shipping) |
5200 XD 5 Channel Power Amplifier
Frequency Response | : | 20 Hz to 20 kHz +0, -0.08 dB |
: | 0.5 Hz to 100 kHz +0, -3 dB | |
Signal-to-noise ratio | : | >95 dB, wideband, unweighted, referred to full power output |
: | >115 dB, "A"-weighted | |
Gain | : | 26.2 dB |
Total Harmonic distortion | : | <0.04% at 1 kHz, at 200 W, 8 Ω |
: | <0.15% at 20 kHz, at 200 W, 8 Ω | |
Input Impedance | : | Single-ended: 100 kΩ |
: | Balanced: 200 kΩ | |
Input Sensitivity | : | Single-ended or balanced: 1.96 V RMS |
Output Power | : | 200 W RMS at 8 Ω |
: | 360 W RMS at 4 Ω | |
Output Voltage | : | 113 V peak-to-peak |
: | 40 V RMS | |
Output Current | : | 13.4 A peak |
Slew Rate | : | 40 V/μs |
Output Impedance | : | <0.038 , 20 Hz to 20 kHz |
Damping Factor | : | >210, 20 Hz to 20 kHz, referred to 8 W |
Power Consumption | : | Standby: 1 W |
: | Idle: 182 W | |
: | Maximum: 2100 W | |
Heat Output | : | Standby: 3.4 BTU/hr. |
: | Idle: 623 BTU/hr. | |
: | Maximum: 7182 BTU/hr. | |
Inputs | : | 5 single-ended via RCA connector |
: | 5 balanced via XLR connector | |
Outputs | : | 5 pairs binding posts |
Dimensions | : | 43.4 x 19.4 x 53.6 cm (WxHxD) |
Weight | : | 38.6 kg (unit only |
: | 43.2 kg (shipping) |
7200 XD 7 Channel Power Amplifier
Frequency Response | : | 20 Hz to 20 kHz +0, -0.08 dB |
: | 0.5 Hz to 100 kHz +0, -3 dB | |
Signal-to-noise ratio | : | >95 dB, wideband, unweighted, referred to full power output |
: | >115 dB, "A"-weighted | |
Gain | : | 26.2 dB |
Total Harmonic distortion | : | <0.04% at 1 kHz, at 200 W, 8 Ω |
: | <0.15% at 20 kHz, at 200 W, 8 Ω | |
Input Impedance | : | Single-ended: 100 kΩ |
: | Balanced: 200 kΩ | |
Input Sensitivity | : | Single-ended or balanced: 1.96 V RMS |
Output Power | : | 200 W RMS at 8 Ω |
: | 360 W RMS at 4 Ω | |
Output Voltage | : | 113 V peak-to-peak |
: | 40 V RMS | |
Output Current | : | 13.4 A peak |
Slew Rate | : | 40 V/μs |
Output Impedance | : | <0.038 , 20 Hz to 20 kHz |
Damping Factor | : | >210, 20 Hz to 20 kHz, referred to 8 W |
Power Consumption | : | Standby: 1 W |
: | Idle: 255 W | |
: | Maximum: 2800 W | |
Heat Output | : | Standby: 3.4 BTU/hr. |
: | Idle: 873 BTU/hr. | |
: | Maximum: 9590 BTU/hr. | |
Inputs | : | 7 single-ended via RCA connector |
: | 7 balanced via XLR connector | |
Outputs | : | 7 pairs binding posts |
Dimensions | : | 43.4 x 19.4 x 53.6 cm (WxHxD) |
Weight | : | 45.4 kg (unit only) |
: | 50 kg (shipping) |
Trio 300 3 Channel Power Amplifier
Frequency Response | : | 20 Hz to 20 kHz +0, -0.13 dB |
: | 0.5 Hz to 100 kHz +0, -3 dB | |
Signal-to-noise ratio | : | >98 dB, wideband, unweighted, referred to full power output |
: | >116 dB, "A"-weighted | |
Gain | : | 26.2 dB |
Total Harmonic distortion | : | <0.045% at 1 kHz, at 300 W, 8 Ω |
: | <0.17% at 20 kHz, at 300 W, 8 Ω | |
Input Impedance | : | Single-ended: 100 kΩ |
: | Balanced: 200 kΩ | |
Input Sensitivity | : | Single-ended or balanced: 2.4 V RMS |
Output Power | : | 300 W RMS at 8 Ω |
: | 540 W RMS at 4 Ω | |
Output Voltage | : | 138 V peak-to-peak |
: | 49 V RMS | |
Output Current | : | 16 A peak |
Slew Rate | : | 40 V/μs |
Output Impedance | : | <0.017 , 20 Hz to 20 kHz |
Damping Factor | : | >470, 20 Hz to 20 kHz, referred to 8 W |
Power Consumption | : | Standby: 4 W |
: | Idle: 200 W | |
: | Maximum: 2160 W | |
Heat Output | : | Standby: 13.7 BTU/hr. |
: | Idle: 800 BTU/hr. | |
: | Maximum: 7387 BTU/hr. | |
Inputs | : | 3 single-ended via RCA connector |
: | 3 balanced via XLR connector | |
Outputs | : | 3 pairs binding posts |
Dimensions | : | 43.4 x 19.4 x 53.6 cm (WxHxD) |
Weight | : | 38.6 kg (unit only) |
: | 45.4 kg (shipping) |