Canaan Semiconductor M a k i n g Te c h n o l o g y Wor k F o r P e o p l e Au d i o Am p l i f i e r C a t alogue Canaan Semiconductor Limited Unit 8, 12/F, Wah Yiu Industrial Centre 30-32 Au Pui Wan Street Fotan, Shatin, N.T. HONG KONG www.canaan-semi.com July 2017 (Rev A)
Audio Amplifier R L =4 Part Number Max Supply Voltage (V) Max Output Power (W RMS ) Amplifier Topology Channel BTL Output Power (W RMS ) Output Stage Built-in Transistor External Output Power Transistor Status (Expected) CS6A4976 ± 18V 30 (± 18V DD ) LAP Mono 80 (± 18V DD ) Asymmetric - CS6A4977 ± 24V 50 (± 24V DD ) LAP Mono 100 (± 24V DD ) Asymmetric - IGBT, MOSFET, BJT IGBT, MOSFET, BJT MP MP CS6A4983 ±11.5V 12.5 (±11V DD ) CAL Mono - Symmetric MOSFET - MP CS6A4582 ±45V 200 (±45V DD ) SFP Mono 300 (±45V DD ) Symmetric - CS6A4997 ±24V 50 (±24V DD ) CAL Mono 100 (±24V DD ) Symmetric - IGBT, BJT, MOSFET IGBT, BJT, MOSFET MP MP Headphone Amplifier Part Number Supply Voltage (V) Max Output Power (W RMS ) Minimum R L ( ) Amplifier Topology Channel Output Stage Built-in Transistor External Output Power Transistor Status (Expected) CS6A4689 ± 10V 4 (± 9V DD ) 4 CAL Stereo Symmetric MOSFET - MP CS6A4989 ± 10V 7 (± 9V DD ) 4 CAL Stereo Symmetric MOSFET - MP LAP: Linear Asymmetric Push-Pull Amplifier CAL: Current Assisted Symmetric Push-Pull Amplifier SFP : Symmetric Floating Drive Push-Pull Amplifier SE: Single End Configuration BTL: Bridge-Tied Load Configuration MP: Mass Production Page 2
Audio Power Amplifier Very high voltage operation ±12V (max), ±11V (recom.) Scalable output power 10WRMS @ 4 ±10V VDD Minimum external components with integrated high current output MOSFETs 5A pulse (max) External compensation feedback circuit poss. Output capacitor less push pull topology Current Driven Class A IQ = 9mA (typ.) Pro Audio Headphone amplifier CS6A4983 Rev M Jan 2016 CS6A4983 Audio Power Amplifier The CS6A4983 is an integrated audio power amplifier with new Class A operation for high fidelity audio amplification with a minimum number of external components. The CS6A4983 can operate with up to ±12V power supply for high output power. However, to provide adequate voltage headroom to protect the device from breakdown, it is recommended to operate CS6A4983 at ±11V or lower to obtain HiFi quality audio with good performance stability. When the amplifier is working with a ±10V VDD, it can deliver 10Wrms on a 4 speaker in an output capacitor-less amplifier topology that is free from cross-over distortion. The amplifier only requires a few external components to form the feedback circuit to operate, which also provide the advantage of allowing user to implement feedback circuits for tonal and offset adjustment. The double current feedback sensing circuit will dynamically bias the CS6A4983 to drive large resistive and capacitive load with minimal power dissipation and without loss in fidelity. Such high performance amplifier not only minimizes the thermal noise problem, it also requires a small size heat sink and power supply to work with, and thus reducing the whole product size and cost. CS6A4983 Figure 1. Typical Audio Amplifier Page 3
CS6A4997 Ultra High Power Audio Power Amplifier Driver Very high voltage operation ±24V (max) Scalable output power 50WRMS @ 4 ±24V VDD High output driving current 100mA (max) External BJT, IGBT, and MOSFET output transistors compatible External compensation feedback circuit possible Output capacitor less push pull topology Current Assisted Linear Class A operation Adjustable quiescent current IQ = 20mA (typ.) BTL power enhancement circuit topology possible The CS6A4997 is a high power audio power amplifier driver which only requires a pair of power MOSFETs and feedback network to complete a high power output high fidelity audio amplifier. The CS6A4997 has high output driving current and is compatible with external power BJT, MOSFET and IGBT (with reduced output) output stage. The CS6A4997 can operate up to ±24V and deliver 50W RMS power over a 4 speaker (with appropriate external transistors connected). The gain of CS6A4997 is adjustable through the resistor ratio of the negative feedback network, which also allows the implementation of a feedback circuit for tonal and output offset adjustment. The double current feedback sensing circuit will dynamically bias the CS6A4997 to drive large resistive and capacitive load with minimal power dissipation and without loss of fidelity. The capacitor less push pull output circuit is driven by a current assisted linear Class A amplification topology, and is free from cross-over distortion, and achieve very low total harmonic distortion. Subwoofers Pro Audio CS6A4997 Rev B. March 2017 CS6A4997 Ultra High Power Audio Power Amplifier Driver Figure 1. Typical Audio Amplifier Page 4
CS6A4976 High Power Asymmetric New Class A Pre-Amplifier Asymmetric new class A linear amplification technology Embedded Pre-amplifier Differential input stage Simple gain control Resistive ratio adjustment in pre-amplifier negative feedback Tonal adjustment via feedback control External BJT, MOSFET and IGBT output transistor compatible Supply Voltage range +/- 10 V ~ +/- 18V Output Power BTL Output Power 30W RMS @ MOSFET with +/-18V 4 The CS6A4976 employs a high power asymmetric new class A amplification circuitry, a design which eliminates the switching and crossover distortion associated with conventional push pull amplifiers to reproduce audio signals with low distortion as conventional Class A amplifiers, yet maintains the power efficiency of class B amplifiers. Canaan has gone another step beyond traditional new class A amplification topology by employing active load biasing that drags the crossover notch away from zero crossing where the human hearing is most sensitive, to the negative voltage region of the amplifier. A sensing resistor is placed in between the output driving transistors to provide current feedback information to achieve both current efficient audio driving, and also dragging the crossover point asymmetrically. The zero input biasing current and the new Class A low quiescent current push and pull output transistors are individually adjustable via an external trimming resistor to suit for the taste of the audiophile. The CS6A4976 has high output drive which allows BJT, MOSFET and IGBT or even a mix of these devices to be applied in the output stage. The amplifier has high energy efficiency and good voltage headroom control when compared to other MOSFET / IGBT / BJT based amplifier. When connected to a MOSFET based output stage, 30W RMS @ 4 can be easily obtained with a +/- 18V supply. If high power is desired, two CS6A4976 can be connected in bridge-tied load (BTL) topology to obtain extra power gain without much circuit modification. As an example, a 80WRMS @ 4 can be obtained with 2 CS6A4976 with MOSFET based output stage driven by +/- 18V supply voltage. The CS6A4976 has built-in high input impedance operational amplifier to act as pre-amplifier which can also be configured to work with a -feedback network for tonal control. 80W RMS @ MOSFET with +/-18V 4 Professional Audio CS6A4976 Rev B March 2017 CS6A4976 High Power Asymmetric New Class A Pre-amplifier and Output Driver Figure 1. Typical Audio Amplifier Page 5
CS6A4977 High Power Asymmetric New Class A Pre-Amplifier Asymmetric new class A linear amplification technology Embedded Pre-amplifier Differential input stage Simple gain control Resistive ratio adjustment in pre-amplifier negative feedback Tonal adjustment via feedback control External BJT, MOSFET and IGBT output transistor compatible Supply Voltage range +/- 10 V ~ +/- 24V Output Power BTL Output Power 50W RMS @ MOSFET with +/-24V 4 The CS6A4977 employs a high power asymmetric new class A amplification circuitry, a design which eliminates the switching and crossover distortion associated with conventional push pull amplifiers to reproduce audio signals with low distortion as conventional Class A amplifiers, yet maintains the power efficiency of class B amplifiers. Canaan has gone another step beyond traditional new class A amplification topology by employing active load biasing that drags the crossover notch away from zero crossing where the human hearing is most sensitive, to the negative voltage region of the amplifier. A sensing resistor is placed in between the output driving transistors to provide current feedback information to achieve both current efficient audio driving, and also dragging the crossover point asymmetrically. The zero input biasing current and the new Class A low quiescent current push and pull output transistors are individually adjustable via an external trimming resistor to suit for the taste of the audiophile. The CS6A4977 has high output drive which allows BJT, MOSFET and IGBT or even a mix of these devices to be applied in the output stage. The amplifier has high energy efficiency and good voltage headroom control when compared to other MOSFET / IGBT / BJT based amplifier. When connected to a MOSFET based output stage, 50W RMS @ 4 can be easily obtained with a +/- 24V supply. If high power is desired, two CS6A4977 can be connected in bridge-tied load (BTL) topology to obtain extra power gain without much circuit modification. As an example, a 100WRMS @ 4 can be obtained with 2 CS6A4977 with MOSFET based output stage driven by +/-24V supply voltage. The CS6A4977 has built-in high input impedance operational amplifier to act as pre-amplifier which can also be configured to work with a -feedback network for tonal control. 100W RMS @ MOSFET with +/-24V 4 Professional Audio CS6A4977 Rev B March 2017 CS6A4977 High Power Asymmetric New Class A Pre-amplifier and Output Driver CS6A4977 Fig- Page 6
CS6A4582 High Power Symmetric Floating Amplifier Driver High voltage output driver supply Low voltage floating power supply ±45V (max) ±10V (typ.) Scalable output power 200WRMS @ 4 ±45V HVDD High driving current to output stage 200mA (max) External BJT, and MOSFET symmetric output transistor compatible External IGBT, and MOSFET asymmetric output transistor compatible External compensation feedback circuit possible Output capacitor less push pull topology Current efficient New Class A topology BTL power enhancement circuit topology possible Subwoofers Pro Audio CS6A4582 The CS6A4582 is a high power audio power amplifier driver which only requires a few power MOSFETs and feedback network to complete a high power output high fidelity audio amplifier. The CS6A4582 uses floating voltage driving topology that is capable to drive high voltage output stage, and is capable to output high driving current. The output stage can be constructed by external complementary BJTs or MOSFETs in symmetric push-pull output capacitor less topology. The floating voltage driving circuit of CS6A4582 can safely drive an output stage with ±45V supply voltage, which can deliver 200WRMS power over a 4 speaker. The gain of CS6A4582 is adjustable through the resistor ratio of the negative feedback network, which also allows the implementation of feedback circuit for tonal and output offset adjustment. The capacitor less push-pull output circuit is driven by a new Class A alike amplification topology, which is free from cross-over distortion, and can achieve very low total harmonic distortion. At the same time, the on-demand dynamic biasing current source will ensure enough headroom are provided to the output stage while achieving a low quiescent power for high power efficiency audio amplification. Rev C March 2017 CS6A4582 High Power Symmetric Floating Amplifier Driver Figure 1. Typical Audio Amplifier with Symmetric Output Stage Page 7
CS6A4689 Stereo Audio Linear Headphone Amplifier Output capacitor less push pull topology Integrated high current output MOSFETs Output impedance Number of output channel 1 (typ.) 2 (Stereo) External compensation feedback circuit possible Current driven class A IQ = 16mA (typ.) High operating voltage ±11V (max.), ±9V (recom) Embedded output load adaptation 2 R L (2 only recom. for low VDD) Pro Audio Headphone amplifier CS6A4689 Rev B April 2016 The CS6A4689 is an integrated stereo audio power amplifier in current driven Class A operation for high fidelity stereo audio amplification with a minimum number of external components. The CS6A4689 can operate with up to ±11V power supply for high dynamic range output. However, to provide adequate voltage headroom to protect the device from breakdown, it is recommended to operate CS6A4689 at ±9V to obtain HiFi quality stereo audio with good performance stability. When the amplifier is working with a ±9V VDD, it can deliver up to 2Wrms on a 16 headphone in an output capacitor-less amplifier topology that is free from cross-over distortion because of it s current driven Class A operation mode. The amplifier only requires a few external components to form the feedback circuit to operate, which also provides the advantage of allowing user to implement feedback circuits for tonal and offset adjustment. The double current feedback sensing circuit will bias the linear current driver within CS6A4689 to output enough current to assist the high quality Class A amplifier to drive large resistive and capacitive load with minimal power dissipation and without loss in fidelity. Such high performance amplifier not only minimizes the thermal noise problem, it also only requires a small size heat sink (or no heat sink at all), and a low current power supply circuit, which all add up to reduce the whole product size and cost without scarifying the audio quality. CS6A4689 Stereo Audio Linear Headphone Amplifier Figure 1. Typical Headphone Amplifier Page 8
CS6A4989 Stereo Audio Class A amplifier Minimum external components with integrated high current output MOSFETs Number of Output Channel 2 (Stereo) External compensation feedback circuit possible Output capacitor less push pull topology Current Driven Class A IQ = 26mA (typ.) High operating voltage ±11V (max.), ±9V (recom) Embedded output load adaptation 2 R L (2 only recom. for low VDD) Pro Audio Headphone amplifier CS6A4989 Rev D Feb 2017 The CS6A4989 is an integrated stereo audio power amplifier in new Class A operation for high fidelity stereo audio amplification with a minimum number of external components. The CS6A4989 can operate with up to ±11V power supply for high output power. However, to provide adequate voltage headroom to protect the device from breakdown, it is recommended to operate CS6A4989 at ±9V or lower, to obtain HiFi quality stereo audio with good performance stability. When the amplifier is working with a ±9V VDD, it can deliver 4Wrms on a 8 speaker in an output capacitor-less amplifier topology that is free from cross-over distortion because of it s Class A operation mode. The amplifier only requires a few external components to form the feedback circuit to operate, which also provide the advantage of allowing user to implement feedback circuits for tonal and offset adjustment. The double current feedback sensing circuit will dynamically bias the CS6A4989 to drive large resistive and capacitive load with minimal power dissipation and without loss in fidelity. Such high performance amplifier not only minimizes the thermal noise problem, it also requires a small size heat sink (or no heat sink at all) and power supply to work with, and thus reducing the whole product size and cost. CS6A4989 Stereo Audio Class A amplifier Figure 1. Typical Audio Amplifier Page 9
Canaan Semiconductor Package Outline Dimension (SIP-10) SIP-10 1±0.02 Page 10
Canaan Semiconductor IMPORTANT NOTICE The information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable. Canaan Semiconductor (CS) does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied. CS reserves the right to make changes to its products or to discontinue any integrated circuit product or service without notice, and advises its customers to obtain the latest version of relevant information to verify, before placing orders, that the information being relied on is current. No liability will be accepted by CS for any consequence of its use. A few applications using integrated circuit products may involve potential risks of death, personal injury, or severe property or environmental damage. CS integrated circuit products are not designed, intended, authorized, or warranted to be suitable for use in lifesupport applications, devices or systems or other critical applications. Use of CS products in such applications is understood to be fully at the risk of the customer. In order to minimize risks associated with the customer s applications, the customer should provide adequate design and operating safeguards. Clere Electronics Limited Freemantle F House, Kingsclere Park, Kingsclere, Newbury, Berkshire, RG20 4SW, United Kingdom Tel +44 1635 291666 Fax + 44 1635 297717 Email info@clere.com Websitee www.clere.comm