The CM6206/CM6206-LX chipset that is in many cheap USB sound card devices uses drivers by C-Media drivers from Windows 10 all the way back to Windows XP are available.
Basic Specs:
USB spec. 2.0 full speed compliant
USB audio device class spec. 1.0 and USB HID class spec. 1.1 compliant
IEC60958 spec. compliant (consumer format S/PDIF input and output with loop-back support)
SCMS (Serial Copy Management System) compliant
Dolby® digital audio streaming via S/PDIF output interface
USB remote wake-up support
6 channel DAC output with 16 bit resolution
3.1 Vpp (1.1 Vrms) biased at 2.25V output swing
Volume control and mute function
Earphone buffer
Self power / Bus power selectable (by EEPROM)
2X interpolator for digital playback data to improve quality
2 channel ADC input with 16 bit resolution
Install Instructions
- Insert the USB device into your computer/laptop.
- If Windows doesn’t automatically install the device, you will need to go to the Device Manager and look for the device that will most likely have a exclamation mark next to it because the drivers were not installed.
- From here right click on the device in the device manager, and manually install the driver for the device using the driver you extracted to your computer.
Full Specs/Additional configurations
Show: Full Specs/Additional configurations
How to download and update C Media Cm6206 Driver ?
Last update:
Step-by-step guide: How do I upgrade driver
This guide with Pictures and Video to help you quickly download and install C Media Cm6206 Driver driver last version on your Personal Computer for Windows, Mac and Linux Operating System.
C Media Cm6206 Driver free download newest version
Safe and Secure free download C Media Cm6206 Driver driver software program file in one click — Stable release. The computer software compatible with Windows versions: 7/Vista/XP/10/8, Mac and Linux Operating System. Also you can download driver files previous versions on this official site.
| Support OS Version: | Windows 10/XP/Vista/7/8 32 and 64-bit, Mac and Linux OS |
| Licence: | Free |
| Installs: | 32 215 |
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| Rate: | 6.1/10 stars |
| Download Size: | 29 MB |
| File Type: | Archive |
| File Extension: | zip |
| Language pack: | Multi-language |
Updating drivers, which are essential software components that allow your computer/’s operating system to interact with its hardware, is a critical aspect of computer maintenance. Here/’s an expert insight into the practice of updating drivers:
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Understanding Driver Updates:
- Purpose: Driver updates are released to fix bugs, enhance the performance, and improve the security of previous driver versions. They can also provide new functionalities and features, along with compatibility support for new operating systems or software.
- Impact on System Performance: Outdated drivers can result in hardware malfunction, software crashes, security vulnerabilities, and reduced performance. Conversely, updated drivers help in the smooth operation of your computer and can often resolve issues that are affecting system performance.
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When to Update Drivers:
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- Enhanced Functionality: For gamers or professionals using graphics-intensive applications, regularly updating GPU drivers can provide improved performance or new features.
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Methods of Updating Drivers:
- Automatic Updates through OS: Modern operating systems often automatically update drivers through standard system updates. This method is the most convenient for casual users.
- Manufacturer’s Support Site: For critical hardware, visiting the manufacturer/’s website and downloading the latest driver version ensures you’re getting the official release.
- Device Manager: In Windows, you can update drivers manually using Device Manager. This method requires some level of technical know-how.
- Third-Party Tools: Various reputable programs can manage your drivers and update them automatically. However, you should use these tools with caution, as not all are reliable and some might install unwanted software.
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Risks and Precautions:
- Compatibility Issues: Occasionally, a new driver might introduce problems instead of solving them. It’s essential to ensure that any updates are compatible with your system and hardware.
- Unofficial Sources: Downloading drivers from unofficial sites can risk system security. Unreliable sources may provide files that contain malware or are otherwise corrupted.
- System Stability: In rare cases, new drivers may be unstable or conflict with existing hardware or software. It/’s wise to look out for user reports on updates before installing.
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Best Practices:
- Regular Checks: Make a habit of checking for driver updates every few months if your system doesn/’t do so automatically.
- Backup: Before updating, consider creating a system restore point or backing up your current drivers. This step allows you to revert to the previous state if there are issues with the update.
- Read Notes: Often, manufacturers release notes with their driver updates, outlining the changes. These can be helpful to determine if the update is relevant to your needs.
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Expert Community Perspective:
- Proactive Approach: Many experts advocate for a somewhat proactive approach — keeping abreast of important driver updates, especially for critical components like GPUs, network cards, and security-related updates.
- Balanced View: There’s also a view that if your system is running smoothly — and especially if it/’s a non-gaming or general-purpose computer — you may not need to rush to install every minor driver update.
Conclusion: In summary, while updating drivers is an essential aspect of maintaining system functionality and security, it requires a balanced approach. Users should update drivers from official sources, with attention to their specific system needs and any potential impacts. Automatic updates provided by the operating system are often sufficient for most users, but understanding when and how to update drivers manually is beneficial for optimal computer performance and security.
Watch YouTube video — How do I setup C Media Cm6206 Driver driver?
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Posted on February 28, 2021
Article Updated: 22 Mar 2022
C-MEDIA CM6206 is a cheap and solid performance audio codec chip supporting 16 bit / 48 kHz audio, stereo* MIC and LINE-IN inputs. Works out of the box on Windows 10 operating system with stock drivers. Great for hobby recordings & measurements (e.g. using Virtins Multi-Instrument / Oscilloscope, ARTA / LIMP, etc.), despite the fact it has only 16 bit A/D converters and 48 kHz sampling rate! 99.999% of us humans can’t hear the difference between standard 16 bit / 44.1 kHz and 24 bit / 192 kHz audio anyway thanks to low-pass filtering, interpolation and human hearing characteristics.
PART 1: C-MEDIA CM6206 5.1 External USB Audio Sound Card Line-In Bass Extension Frequency Response Modification
C-MEDIA CM6206 5.1 USB Audio Sound Card – Product Photo
C-MEDIA CM6206 – THE PROBLEM
If you wish to start a YouTube or Twitch career, transfer your old audio cassette recordings or vinyl collection to your computer, C-MEDIA CM6206 External USB Sound Card is a very nice solution in case you use a modern laptop without integrated multi-channel audio card and dedicated Line-In or MIC inputs. This card can be bought really cheap on Amazon, AliExpress, BangGood and similar online stores, and have it delivered for free in few days or weeks.
Paired with a cheap studio-like condenser microphones such as BM-800 or Neewer NW-700 you can really step-up the quality and get yourself going in the right direction for well under $50 budget.
Of course, we cannot possibly compare it to the more advanced and higher-quality Realtek, Intel, Nvidia or AMD HD Audio codecs (supporting up to 5.1 / 7.1 / 24-32 bit / 192-384 kHz with absolutely flat frequency response in 20-20 kHz range and beyond), but for this price we can’t and don’t complain. Plus, unless it’s a desktop computer, current laptop computers using them only have stereo headphones output and (maybe) single mono DC-biased MIC input (sometimes hidden in a single 4-wire 3.5 mm socket), and do not support analog stereo LINE or MIC inputs that we need!
However, engineers who designed and manufactured this sound board crippled LINE-IN analog recording inputs frequency response in low / bass section by putting very small coupling capacitors! Why oh why ???
CM6206 hardware is perfectly capable going all the way down to a sub-hertz (less than 1 Hz) flat frequency response if desired / required. You can even bypass input AC coupling capacitors to enable DC input, with some precaution (useful for audio oscilloscope applications and DC signal measurements e.g. using Daqarta software).
C-MEDIA CM6206 audio codec is used in many different sound cards, including 7.1 surround models. It supports separate Headphone output, mute, rec mute, digital volume controls, dual mono MICROPHONE inputs and more! Of course, in this 5.1 model not all the features are used (obvious cost reduction saving on external parts and components), but what can you expect from a $5 or $10 sound card? More expensive $20 models come with 7.1 audio, dedicated headphones output, dual MIC and LINE-IN inputs, Volume and Mute controls, but those are not really essential, as you can achieve the same in software, although they can be convenient as dedicated hardware buttons.
In essence, this is a very solid audio card for the money!
C-MEDIA CM6206 5.1 External USB Audio Sound Card – Line-In Frequency Response Measurements
[1] Right-Mark RMAA without modification (loopback audio Line-In <-> Line-Out)
RMAA C-MEDIA CM6206 5.1 USB Audio Card 16-bit, 48 kHz Loopback Line-In Frequency Response Spectrum + THD
[2] Right-Mark RMAA without modification (loopback audio Line-In <-> Line-Out)
RMAA C-MEDIA CM6206 5.1 USB Audio Card 16-bit, 48 kHz Loopback Line-In Frequency Response Spectrum TEST OVERVIEW
[3] without modification (ARTA FR1 CH loopback audio Line-In <-> Line-Out)
ARTA #1-1 C-MEDIA CM6206 5.1 USB Audio Card Line-In ORIGINAL 20Hz-20kHz
[4] with 4.7 uF input coupling capacitors modification (ARTA FR1 CH loopback audio Line-In <-> Line-Out)
ARTA #1-2 C-MEDIA CM6206 5.1 USB Audio Card Line-In 4.7uF MOD 0.2Hz-20kHz -3dB Marker
[5] with 1 uF input coupling capacitors modification (ARTA FR1 CH loopback audio Line-In <-> Line-Out)
ARTA #1-3 C-MEDIA CM6206 5.1 USB Audio Card Line-In 1.0uF MOD 0.2Hz-20kHz -3dB Marker
C-MEDIA CM6206 5.1 External USB Audio Card Line-In Modification Video Tutorial
In this video I have upgraded input coupling capacitors with larger values and improved frequency response considerably! In the end of the video is a line-in recording example using C-MEDIA CM6206 5.1 External USB Sound card with and without this modification compared to the original audio, along with the frequency response charts.
Watch Video Tutorial:
Used SMD capacitors: 1608 A (0603) XR7 type
C-MEDIA CM6206 5.1 External USB Audio Sound Card – High Resolution PCB Board Photos with Annotations
Note: click on photos to load full resolution images
C-MEDIA CM6206 5.1 USB Audio Card – TOP & BOTTOM PCB Layers Overlay – Top Side
C-MEDIA CM6206 5.1 USB Audio Card – TOP & BOTTOM PCB Layers Overlay – Bottom Side (Horizontally Mirrored Photo)
C-MEDIA CM6206 5.1 USB Audio Card – Line-In Input AC Coupling Capacitors Close-Up
C-MEDIA CM6206-LX Chip Close-Up
I used solid capacitors with 2nd unit as they were much easier to solder than SMDs and have better electrical characteristics (performance)
Note: Outer “metal” case shell on solid (polymer) electrolytic capacitors is electrically non-conductive (in audio frequency range, at least — confirmed this with my own measurement), so it’s safe if they touch each other! If you still don’t have a piece of mind, you can very gently put a tiny sheet of paper or translucent plastic foil between them later after soldering (but it’s not really necessary) — just be careful not to rip apart SMDs from the PCB with too much force!
IMPORTANT NOTES & TIPS
💡 Stereo MIC feature (dedicated L+R MIC inputs) is physically available only on a slightly more expensive 7.1 USB External Sound Card model (USD $20 ~ $25). On 5.1 USB External Sound Card model a single (mono) MIC input is split via C16 and C17 coupling SMD capacitors and routed to respective L+R MIC inputs of CM6206 chip. With some skills it is possible to split PCB wire connection and add 2nd MIC input socket manually if needed on this model, too. Please refer to high-resolution PCB photos with annotations for more details.
💡 Unfortunately it is not possible to directly measure C16 and C17 capacitor values with common multimeters, because there is a resistor network for DC voltage bias connected in parallel (MIC phantom power), but it is safe to assume they are also under-valued and around 100 nF (0.1 uF). If you wish to improve low frequency range linearity, they need to be replaced or upgraded as well. It is possible to use Line-In modified STEREO inputs, coupled with one or two external MIC preamplifiers and one or two microphones (dynamic or condenser type) to make better (more linear) audio recording.
MIC INPUT Frequency response without modification (ARTA FR1 CH loopback audio Mic-In <-> Line-Out)
ARTA #1-1 C-MEDIA CM6206 5.1 USB Audio Card Mic-In ORIGINAL 20Hz-20kHz
Update: Well, it is not possible to measure MIC IN coupling capacitors capacity directly, but I have measured frequency response instead! And, yes, just as I suspected, undervalued 0.1 uF (100 nF) input coupling capacitors are used which results at approx. -3 dB @ 80 Hz point. In another words, you need to modify MIC input coupling capacitors as well if you plan to use them with higher quality microphone or simply wish to achieve better low frequency (bass) response with existing one.
💡 DC Offset voltage at inputs may noticeably drift and is generally much higher with large input capacitors (e.g. 4.7 ~ 10.0 uF). I do not yet have an explanation nor solution for this issue, but it seems to be affected by the source device at input. Update after couple of days: yes, DC offset drift is definitely related to the input devices / signal sources. I have originally used Sony Xperia M5 smartphone as an audio source for line input tests and recordings, which incidentally generated some weird DC offset drifts (+10 to +15 dB), while using CD player and audio cassette decks offset drifts were much lower / non-existent.
DC offset can be compensated using Sound Forge or similar recording software with DC offset adjust compensation option enabled. Calibrated offset before each recording will help, but the drifting offset over time will still be present in some cases. Using some smart VST plug-in for post-processing should also help. FL Studio has a nice built-in factory DC remove effect called Fruity Center that works dynamically but it’s not enabled by default in newer versions, you must click on More plugins… in the Mixer channel FX slots menu and activate it in the list to make it visible/available.
C-MEDIA CM6206 5.1 USB Audio Card – DC Offset Calibration in Sound Forge 8 Recording Panel
C-MEDIA CM6206 5.1 USB Audio Card – DC Offset Calibration in Sound Forge 11 Recording Panel
Another related issue which I discovered recently is that setting Windows 10 device slider for Line gain to 0 will not mute C-Media CM6206-LX USB sound card, only reduce gain to default predefined internal value! This means that for some devices such as CD players and audio cassette decks, which inherently do not have integrated output volume (gain) control knob, recording levels (= gain) may still be too high and you’ll need a passive attenuation resistor network in between your recording cables and C-MEDIA CM6206-LX USB audio card line input. See below recording for demonstration of such scenario where positive half-periods in recorded signal were clipped because of present DC offset, and input device (DENON cassette deck) does not have output level control knob.
C-MEDIA CM6206 5.1 USB Audio Card – Windows 10 Generic Drivers Line Input Gain Settings
C-MEDIA CM6206 5.1 USB Audio Card – Asymmetrical Recording Clipping with DC Offset and Strong Input Signal
This isn’t something I’m particularly happy about to be completely honest and you should be extremely careful when making recordings via Line input port to avoid strong signals and potential waveform single-side or double-side uneven clipping and distortion because of the present DC offset. Using -3 dB safety margin should be OK, -6 dB if you wish to be extra safe and avoid unexpected peaks.
You should avoid recording at high levels near 0 dB (+/- 1.40 Volts) anyway, to avoid clipping. Remember, DC offset in audio is bad because it effectively reduces available dynamic range and maximum signal input voltage span.
CM6206-LX Volume Gain Control Resolution
C-MEDIA CM6206-LX Block Diagram
Consulting official datasheet, volume controls and gain levels are:
- DAC Volume Control / Master Output (Playback) [Front/Surround/Headphones/SPDIFO]: from -34.5 dB to 0 dB plus MUTE state (38 linear steps / lin scale)
- ADC Volume Control [Line / Mic Input Gain] (Recording): from -6 dB to +33 dB plus MUTE state (26 x 1.5 dB steps / log scale)
- ADC Volume Control [Line / Mic Monitor Control Gain] (Playback): from -33 dB to +12 dB plus MUTE state (31 x 1.5 dB steps / log scale)
- ADC Analog Input Gain [Line / Mic]: from -36 dB to +33 dB (48 x 1.5 dB steps / log scale)
I have yet to test official C-MEDIA USB sound card drivers, which may be the key answer to solving the input gain control problem.
PART 2: C-MEDIA CM6206 5.1 USB Audio Card Headphones Line-Out Bass Frequency Extension Modification
So far, we have only modified Line-In inputs used to record/monitor analog electronic musical instruments or pair of high quality microphones (via preamplifier — not directly!). What about Line-Out (marked as FRONT OUT) outputs?
C-MEDIA CM6206 5.1 USB Audio Card – Output Coupling Capacitors
If you take a closer look at the output stage on the PCB board you will notice six 100 uF electrolytic coupling capacitors connected to their respective color-coded 3.5 mm output sockets. Each capacitor pair is dedicated for L+R main output (C5/C6), L+R rear surround output (C1/C2), and finally c/sub CENTER + SUBWOOFER output (C3/C4), respectively.
C-MEDIA CM6206 5.1 USB Audio Card – TOP & BOTTOM PCB Layers Overlay – Bottom – Headphones Line-Out Mod (NOTE: Corrected Output Coupling Capacitors Polarity!)
⚠️ If you take a closer look at the PCB board, you will notice that the output coupling electrolytic capacitors have their negative minus “-” terminals connected to the CM6206 chip’s side (pins). However, this is very wrong and illogical, because chip operates at single-ended USB +5.0 V power supply and output DC offset is biased at positive +1.40 volts, which allows AC audio signal to swing between 0 V and +2.80 V.
According to official CM6206 datasheet, output coupling capacitors should be connected with their positive “+” terminal at the CM6206 chip’s side, and this is exactly why we marked it as such in our annotated photo! The factory PCB version is technically wrong, and this negative -1.40 voltage will negatively impact capacitor’s life expectancy and performance. Because outputs are ended with 47 kOhms resistors to the ground, capacitors are constantly polarized with reverse voltage and current, even without any external load connected to the output sockets!
C-MEDIA CM6206 5.1 USB Audio Card – Output Coupling Capacitors WRONG POLARITY
Now, if your setup uses external audio amplifier or some other medium-to-high impedance equipment (e.g. 1k ~ 100k Ohms input impedance; CM6206 outputs are ended with 47 kOhm resistors), those 100 uF factory coupling capacitors will be more than adequate. Headphones with 64 Ohms impedance will be fine, and even most 32 Ohms models. Why? Well, most home headphones have issues reproducing frequencies lower than 40 Hz anyway (yes, they can reproduce them in Signal Generators, but in the real music mix those frequencies get lost because of poor frequency response and attenuation), so you will definitely not miss much without this modification.
Headphones with 32 Ohms nominal impedance and decent bass response such as EDIFIER H840 (they go all the way down to the useful 35 Hz in our tests) will be just fine with a -3 dB point at ~ 50 Hz (54 Hz measured in ARTA), but technically still far from Hi-Fi “on paper”. On the other hand, headphones such as SENNHEISER HD 201 won’t gain much because they cannot reproduce anything below 40 Hz properly (forget that 21 Hz from the official specification!). Still, if you test them with pure sine waves with signal generator, there is no doubt that 20 ~ 50 Hz range gets louder with larger coupling capacitors. And let’s not forget that your ears’ sensitivity to low frequencies, head physical profile and headphones anatomy equally play important role in low frequency response.
However, with ultra linear and low-impedance 16~24 Ohms headphones you will definitely notice some bass improvement because -3 dB point will be at 100 Hz and 65 Hz, respectively. Again, we stress out that your headphones must be real subwoofer monsters and linear all the way down to 20-25 Hz to notice any real difference, aside the measurement graphs! Otherwise, the effect of this Line-Out modification will be extremely subtle and barely noticeable if your headphones drivers cannot deliver.
How To Fix Line-Out Low Frequency Response with Low-Impedance Headphones?
Simply replace capacitors C5 and C6 with a higher value one. For 32 Ohms headphones use 1000 ~ 2200 uF / 6.3V, and for 16-24 Ohms headphones use 2200 ~ 4700 uF / 6.3 V electrolytic type. You can even use low-ESR types (usually used in switching power supplies) and solid aluminum electrolytic capacitors (usually more compact than ordinary wet electrolyte types; so you can easily squeeze larger capacity in a constrained space) for best possible audio performance, and low distortion.
C-MEDIA CM6206 5.1 USB Audio Card – 1000 uF Line-Out Headphones Coupling Capacitor Mod Test
NOTE: Capacitors height must not exceed ~ 13 mm (1/2″ inch) or you’ll have to position them horizontally in order to be able to put aluminum enclosure back. Distance (pitch) between capacitor’s leads (pins or “legs”) is 2.54 mm ideally, but you can bend larger 3.5 mm / 5.0 mm types easily.
C-MEDIA CM6206 Line-Out Modification Measurements
[1] without modification + EDIFIER H840 (32 Ohms) headphones load connected @ output
(ARTA FR1 CH loopback audio Line-In <-> Line-Out) (Line-In 1 uF input capacitor mod applied)
ARTA #4-1 C-MEDIA CM6206 5.1 USB Audio Card Line-Out + EDIFIER H840 + 100 uF Capacitor Factory -3dB Marker
[2] with 1000 uF capacitors modification + EDIFIER H840 (32 Ohms) headphones load connected @ output
(ARTA FR1 CH loopback audio Line-In <-> Line-Out) (Line-In 1 uF input capacitor mod applied)
ARTA #4-2 C-MEDIA CM6206 5.1 USB Audio Card Line-Out + EDIFIER H840 + 1000 uF Capacitor Mod -3dB Marker
DESCRIPTION
CM6206 is a highly integrated single chip USB audio solution. All essential analog modules are embedded in CM6206, including 8CH DAC and earphone buffer, 2CH ADC, microphone gain, PLL, regulator, and USB transceiver. It is very suitable for high end USB external audio box, USB multi-channel headphone or USB audio interface multi-channel speaker set application.
Many features are programmable with external EEPROM and MCU interface. In addition, MCU/EEPROM/GPIO control can easily via HID software interface. Better yet, CM6206 support stereo MIC, phone jack sense, S/PDIF I/O 48 KHz sampling rate. Moreover, unique patent driver can support world’s first SPEAKER SHIFTER, Karaoke and Dolby AC-3 real-time encoder functions.
FEATURES
— S/PDIF In/Out with 48kHz sampling rate
— USB spec. 2.0 full speed compliant
— USB audio device class spec. 1.0 and USB HID class spec. 1.1 compliant
— IEC60958 spec. compliant (consumer format S/PDIF input and output with loop-back support)
— SCMS (Serial Copy Management System) compliant
— Dolby® digital audio streaming via S/PDIF output interface
— USB remote wake-up support
— 8 channel DAC output with 16 bit resolution
— 3.1 Vpp (1.1 Vrms) biased at 2.25V output swing
— Volume control and mute function
— Earphone buffer
— Self power / Bus power selectable (by EEPROM)
— 2X interpolator for digital playback data to improve quality
— 2 channel ADC input with 16 bit resolution
Windows Driver 7,8,10 and 11
CM6206LX-1.04(CR).zip
Datasheet
CM6206_Datasheet__v2.3.pdf
Recorder Program for S/PDIF in and out.
GOMRECORDERSETUP.EXE
Digital loop back recording with original PCM data.
For example for music service(Spotify, Apple Music..) recording.