SCS.1d
Deck Control Surface
USER MANUAL
Table of Contents
1. Introduction..........................................................................................................................................................1
1.3
Welcome to the SCS.1d!...............................................................................................................................1
Overview ......................................................................................................................................................2
Unpacking.....................................................................................................................................................2
2. Connecting the SCS.1 ...........................................................................................................................................3
Connecting to Your Computer .....................................................................................................................3
Connecting to the SCS.1d to the SCS.1m .....................................................................................................4
SCS.1d Setups...............................................................................................................................................4
3. SCS.1d Description ...............................................................................................................................................5
Top Panel Functional Groups .......................................................................................................................5
Encoder Section ...........................................................................................................................................7
Trigger Section .............................................................................................................................................7
Platter / Global Section................................................................................................................................8
Pitch Section.................................................................................................................................................9
Transport Section.........................................................................................................................................9
Preset Switcher Section ……………………………………………………………………………………………………………………… 10
4. SCS.1 Software Installation................................................................................................................................11
Windows XP ...............................................................................................................................................12
Mac OS X ....................................................................................................................................................19
5. DaRouter ............................................................................................................................................................23
5.1
About DaRouter .........................................................................................................................................23
Anatomy of DaRouter ................................................................................................................................23
5.2.1 Section A................................................................................................................................................24
5.2.2 Section B ................................................................................................................................................24
5.2.3 Section C ................................................................................................................................................26
5.5
Using DaRouter ..........................................................................................................................................27
Loading a Preset.........................................................................................................................................27
Using a Preset for the First Time................................................................................................................27
6. Troubleshooting.................................................................................................................................................28
7. Specifications......................................................................................................................................................29
Appendix .....................................................................................................................................................................30
Optimizing Computers for 1394 (FireWire)............................................................................................................30
DPC (Windows XP‐Vista).....................................................................................................................................30
Windows 1394a Bandwidth Limiting Issue / SidSpeed Fix (Windows XP‐Vista).................................................35
FireWire Chipsets................................................................................................................................................45
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1. Introduction
1.1
Welcome to the SCS.1d!
Thank you for purchasing SCS.1d! The SCS.1d (Stanton Control System 1 deck) is the premier deck control surface
for laptop DJs, remixers, VJs, and producers.
Before we begin, there are a few important issues we would like to bring to your attention.
There is a software component to this hardware. It is called DaRouter. DaRouter is a kind of “MIDI processor” that
allows the use of presets. These presets can be application specific mappings, or generic maps that can be applied
to a number of different software packages. In fact, you may already be familiar with the DaRouter software
because it is also used with our SCS.3 line of controllers. Well, DaRouter is even more important for the
SCS.1 controllers than it is for the SCS.3 controllers. This is because the DaRouter software for the SCS.1 controllers
also contains the driver for them. So it is important for you to go to http://www.enterthesystem.com/scs1 to
download and install the latest DaRouter software. This single software package gives you the latest presets and
the latest version of your driver. Be sure to keep your DaRouter software updated so you can take advantage of
new presets and features as they become available!
This brings us to the next important issue. Please do not connect the SCS.1 hardware to your computer before you
go through the driver install. Most audio interface installers, FireWire or USB, carry the same warning. We know
that when you buy new gear, most people are excited to hook it all up and see what it can do, but in this case, it is
better to wait until you are prompted. The process will go like this…
• You should connect the power to your SCS.1d and locate the FireWire connector, but do not connect it to
the computer yet.
• Download and run the DaRouter installer for the SCS.1d. This installer is located at
• On Windows a dialog box will open telling you to connect and power up your SCS.1d. At this point, connect
the FireWire cable to your computer. On a Mac computer you will just need to install DaRouter first,
however no dialog will show for connecting the units.
The driver will then detect the SCS.1 devices connected to your computer and load the drivers for them. Allow the
installer to continue normally. Following these steps is a good idea for any hardware installation you have, and
might save you from possibly having to troubleshoot a problem later.
Finally, we would like to point out that the descriptions of specific functionality of the SCS.1d are generic.
The SCS.1d is a MIDI controller and does not generate any audio itself. Although it looks like a CD player or
turntable, it in fact is not. The functionality of a given control on the surface of the SCS.1d (like the pitch slider for
example) is dependent on what it is assigned to. We had to start somewhere, so we thought it would be best to
describe the functionality of the generic preset. When you are using other presets, you can click on the Preset
Documentation button in DaRouter (it’s the “?” button) to learn all about how that specific preset works with your
new SCS.1d.
1.2
Overview
The SCS.1d was designed for high‐precision software control. Thanks to its straightforward interface and intuitive
ergonomics, the SCS.1d provides a host of top‐notch features at your fingertips, such as high‐torque 10” motorized
platter, 100mm motorized pitch fader, velocity‐sensitive pads, assignable encoder sections, and much more…
The SCS.1d (deck) and the SCS.1m are the main components of the SC System 1; Stanton‘s most advanced
digital control system for the professional DJ. You can use the SCS.1d in conjunction with the SCS.1m for tight
integration and full control of your DJ/VJ application’s main parameters or with other audio interfaces.
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Adjustable high‐torque 10” motorized platter with vinyl surface and superior tracking.
High‐resolution vinyl tracking system allows for super‐accurate mixing and scratching.
100mm pitch fader motorized to maintain sync with software.
4 Velocity‐sensitive pads assignable to loops, cue points, etc.
Assignable Encoder section with 360° of LED feedback.
LCD “scribble strips” for two‐way communication with selected software.
Familiar Transport section for direct music control.
Perfect for adding maximum control capabilities into existing DJ software.
Easily controls multiple virtual decks for powerful multi‐channel mixes.
Before you start hooking up your new unit, let’s check what is in the box!
1.3
Unpacking
Please check that you have received the following items:
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(1) SCS.1d unit
(1) FireWire cable
(1) 4 to 6 pin FireWire adapter
(1) Power cable and adapter (24V)
(1) Felt slipmat
(1) Vinyl control disc
(1) SCS.1d Manual
Upon unpacking the SCS.1d, you should place the slipmat on the platter and then place the record on top of the
slipmat.
In addition to the above items, remember that to take advantage of the SCS.1d full potential you will need the
SCS.1m or a traditional DJ mixer, a Mac or PC computer, a DJ application, and to download and install DaRouter
software. So let’s get started!
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2.
Connecting the SCS.1
2.1
Connecting to Your Computer
Step 1: Locate the included power cable and adapter (24V) and connect it to the
SCS.1d and to your power source. (Figure 2.1)
Note If you own both the SCS.1m and the SCS.1d, the power adapters look very
similar. Looking at the output voltage will tell you which is for which component,
(e.g., 12V for the SCS.1m, and 24V for the SCS.1d). There is also a label on each of
the power cords to specify which product they are to be used with.
Figure 2.1
Step 2: Attach the included FireWire cable to the SCS.1d. The FireWire ports are
clearly labeled on the back panel of the SCS.1d. (Figure 2.2)
Figure 2.2
Step 3: Download and run the DaRouter installer for the SCS.1d.
A dialog box will open telling you to connect your SCS.1d. At this point, turn the
SCS.1d on and connect the FireWire cable to your computer’s FireWire port (Figure
2.3). Do not connect the SCS.1d until prompted.
Figure 2.3
On laptops, there are two different types of FireWire ports: 6 and 4 pin. Typically, you will find “full sized” 6 pin
ports on Apple laptops. If your computer has a full sized (6 pin) FireWire port, use the included FireWire cable to
connect directly from the SCS.1d to your computer.
Most PCs will have a 4 pin FireWire port. So if you have a 4 pin port on your computer, connect the FireWire cable
to the provided 4 to 6 pin adapter, and then just plug it to your computer’s 4 pin FireWire port.
Now that power and FireWire are connected, we can explore hooking up the SCS.1d with the SCS.1m (if used).
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2.2
Connecting to the SCS.1d to the SCS.1m
All of the SCS.1 controllers have two FireWire ports on them, so devices can be chained together if needed.
So when connecting a single SCS.1d to the SCS.1m, you would go from the unused FireWire port on the SCS.1m
(Figure 2.4), (the other port is connected to your computer) to an open port on the SCS.1d. (Figure 2.5)
Figure 2.4
Figure 2.5
Likewise, if you’re connecting two SCS.1d’s to a SCS.1m, then you would go from the free FireWire port on the first
SCS.1d to a port on the second. Any other FireWire devices should go at the end of the chain and not before any of
the SCS.1 controllers.
Let’s take a look of the SCS.1d Setups.
2.3
SCS.1d Setups
The following configurations can be used for the SCS.1d for typical use cases:
SCS.1m + SCS.1d
This mixer‐and‐deck configuration can be used to emulate a dual‐deck setup by using
virtual decks for controlling transport, loop, and effects, while using the mixer to blend
and EQ songs and sounds. This system is the perfect entry into the world of
professional SC System laptop mixing. (Figure 2.7)
Figure 2.7
Figure 2.8
Dual SCS.1d + SCS.1m
This setup recreates the “traditional” DJ system, allowing users to have two physical
decks, each representing an on‐screen deck (which can easily be toggled to four decks
by using virtual decks). The mixer is used for blending, channel EQ, etc, in a traditional
manner. This setup is tailored towards professional DJs wanting to replace their
existing setup with an SC System controller‐based solution. (Figure 2.8)
Single / Dual SCS.1d + traditional DJ mixer
The SCS.1d(s) can be used with an existing sound card to send audio outputs from DJ
software into an existing analog DJ mixer. This allows users to incorporate SC System
decks into their system while using their favorite traditional DJ mixer (Figure 2.9).
Figure 2.9
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3.
SCS.1d Description
In this chapter, we will briefly describe the top panel of the SCS.1d.
It’s important to understand that the SCS.1d is a traditional DJ turntable / CD player “analogy” in a control surface.
This means that while the SCS.1d looks like a DJ turntable / CD player, at its core, it is really a control surface that
sends and receives control data to and from a computer. As a control surface, the SCS.1d’s functionality is
completely derived from the host application (software) that it is controlling.
The SCS.1d also utilizes presets in DaRouter to define its capabilities, which can drastically change its functionality
depending on how the preset is configured. So as we discuss the panel and layout it is important to remember that
when running a specific preset its best to read the documentation associated with that preset as it will explain how
the SCS.1d is tailored towards the application it is being used with. So in the below explanations we describe the
controls and how they traditionally may be mapped into an application.
3.1
Top Panel Functional Groups
To easily understand the main SCS.1d Top Panel, we have divided it in six functional groups:
‐ Encoder Section
‐ Trigger Section
‐ Platter / Global Section
‐ Pitch Section
‐ Transport Section
‐ Preset Switcher Section
On the next page, let’s take a look of the Figure 3.1:
5
Top Panel Functional Gro
ups (continuation)
Figure 3.1
Now, let’s take a closer look of each of the functional groups.
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3.2
Encoder Section
This section consists of four rotary push encoders, each with
an LED encoder ring to indicate the value of the encoder,
and an LCD “scribble strip” that can be used to indicate the
functionality of each encoder. Encoders are used to control
variable parameters such as effect levels. Encoders do not
physically stop when you turn them; instead the LED
encoder rings indicate the position of the control you are
adjusting.
3.3
Trigger Section
The trigger section consists of four velocity sensitive pads,
four LCD “scribble strips”, and seven clicking switches. Each
pad, switch and screen is backlit by multicolor (red, green,
orange) LED’s. The velocity sensitive pads and switches are
typically assigned to trigger actions such a playing cue
points, moving loops or killing frequencies. The LCD
“scribble strips” will display functionality and status
depending on the preset.
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3.4
Platter / Global Section
This section controls the assignment of the platter as well
as global functionality.
The DECK SELECT button will allow you toggle virtual decks
on screen. In this way when you switch virtual decks, the
SCS.1d will also change its state to match the on screen
deck. By using one physical SCS.1d you can control
multiple virtual decks.
The VINYL, CONTROL and BROWSE buttons all modify the
motorized jogwheel’s functionality within the application.
The motorized platter is normally used for scratching and
scrubbing through a song when “VINYL” is activated.
However, the Control button allows the platter to be freely
used as a large parameter control such as scratching an
effect. BROWSE is used to scroll the playlists in
applications that support mapping to browser view.
Depending on the control mode the ENTER and CANCEL buttons will allow for expanded functionality with the
platter.
SETUP button will allow for adjustments of the overall deck controller. Upon pressing setup you will see the
current firmware version. Using the first encoder will allow you to select a value to change; the second encoder
will allow you to adjust the value.
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Contrast: Adjusts the contrast of the LCD screens.
Torque: Adjusts the torque of the platter to simulate different turntables.
MIDI Ch: Changes the output MIDI channel of the device. It is suggested NOT to change this as
presets usually expect the deck to send data from the default MIDI channel.
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Decay: Adjusts the acceleration curve of the encoders.
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3.5
Pitch Section
The pitch section represents a traditional pitch control
found on a CD player or turntable. However, the key
difference is that the pitch control is motorized to support
functionality such as auto‐sync in an application and
updating position when switching virtual decks. It’s
important to not stop the motorized fader while it’s moving
to prevent damage.
The RESET button will center the pitch slider to 0%
automatically.
The RANGE button will change the sensitivity of the pitch
slider (as long as the application supports the ranges).
3.6
Transport Section
The transport section is analogous to the transport controls
on a CD player however it places a few extra buttons for
common functions found in DJ applications (such as auto
sync). Each of the 4 main transport buttons are multi color
back lit to indicate status.
Along with the 4 main transport buttons are seek forward
and backwards as well as scan forward and backwards.
Above the seek and scan buttons is a freely assignable
backlit button.
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3.7
Preset Switcher Section
The preset switcher section controls switching of presets on
the SCS.1d. Presets are generally related towards switching
presets for the encoder section, trigger section or pitch
slider. Presets are groups of controls with functionality
focused towards doing a single task. For instance, a loop
preset will contain all the controls needed to create, move
and modify a loop. Preset configuration and functionality
are highly dependent on the application the SCS.1d is being
used with. As with the rest of the controls it’s very
important to read the preset documentation from within
DaRouter for information on how the unit is configured.
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4.
SCS.1 Software Installation
Before installing the SCS1 software (DaRouter and drivers) make sure you follow these guidelines:
1) Windows: Do NOT connect the SCS.1 controller(s) until prompted by the driver installer.
2) Windows: When intending to use multiple SCS.1 controllers at once (mixer + decks) make sure you
connect ALL the devices during the driver installer.
3) Always check the Stanton website (listed below) for the latest drivers and firmware.
To fully maximize SCS.1 capabilities and take advantage of its great features, some software needs to be installed
with it. In fact, the SCS.1 Software Installation process differs greatly between Mac and PC computers.
‐ On a Mac, the SCS.1d is a class compliant FireWire device, which means that it will connect to the system
without drivers, however, because the SCS.1d uses a proprietary high speed MIDI system it is necessary to
install DaRouter to communicate with the SCS.1d and create a virtual MIDI port for the host application to
receive MIDI messages through. On the Mac you will simply need to install DaRouter, connect the unit(s)
and start using your desired preset.
‐ In Windows, a high level FireWire driver must be installed to communicate with the SCS.1d. Once this driver
is installed the SCS.1d and can communicate with DaRouter. Upon installing DaRouter, both the FireWire
and virtual MIDI port driver are installed. It is important to not connect the SCS.1d until prompted. It is also
important to connect all units that will be used when installing the driver (if using multiple SCS.1d’s or with a
SCS.1m).
In either case, (Mac or PC) the DaRouter software needs to be installed. This software acts as an intermediary
between your SCS.1 controllers and your performance software, intercepting and processing MIDI messages
before sending them out to your application of choice. This process takes less than a millisecond, and gives you
some amazing power. Not only does it allow you to quickly change the MIDI output of the SCS.1 controllers
(by switching presets), it also allows for logic‐based programming that your performance software may or may not
be capable of performing. This means that it is actually possible to add or change some functionality in your
software of choice. This can be as simple as adding MIDI data to an application that does not normally support it,
to totally changing the behavior of a given control.
In short, if you are a PC user, you will run one installer that will install the SCS.1 driver and DaRouter. If you are a
Mac user, you do not need to install any driver but you must install DaRouter.
Before walking through specific installation procedures for Mac and PC, you will need to download the latest
version of DaRouter from the Stanton website:
So, let’s follow the specific instructions for each platform.
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3. To install the software for the first time, choose the Standard option. To update your previously installed
version, choose Custom. In this example, let’s choose Standard. (Figure 4.3)
Figure 4.3
4. Read the License Agreement, select the “I accept the agreement” option, and then click Next.
(Figure 4.4)
Figure 4.4
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5. The installation of the ASIO / high level FireWire driver will begin. When you are ready, click Next. (Figure
4.5)
Figure 4.5
6. In this step, you are able to choose where to install the driver. However, if you do not really need to
change the location, leave the default setting and click Install. (Figure 4.6)
Figure 4.6
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7. Files will begin to copy or if you are installing a new driver the old drivers will be uninstalled before new
files are copied. When prompted to connect your devices (Figure 4.7), turn ON all SCS.1 devices to be
used and then connect the FireWire cable from the device(s) to your computer and click OK.
Figure 4.7
8. Wait for a few seconds, normal operation will resume shortly. (Figure 4.8)
Figure 4.8
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9. Once the files are done copying click Next to continue. (Figure 4.9)
Figure 4.9
10. Click Finish. (Figure 4.10)
Figure 4.10
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11. Read information regarding this build of the installer then click Next. (Figure 4.11)
Figure 4.11
12. Click Finish. (Figure 4.12)
Figure 4.12
That’s it. You have installed the SCS.1d driver and DaRouter.
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To check that your d
rivers and so
ftware are properly installe
d, open Devic
e Manager. O
n your desktop, right
click My Computer icon and click Properties. In the System Properties window, click the Hardware tab, and
then the Device Manager button. (Figure 4.13)
Figure 4.13
You will see a new section called Stanton 1394 Audio Devices that includes the Stanton 1394 Virtual Device
and a hardware specific driver for each controller you have connected. Check that the SCS.1d device (or other
SCS.1 devices such as a mixer) are attached to your computer.
You can also click the Start button and verify that all associated applications appear there. (Figure 4.14)
Figure 4.14
You will see a driver program group, along with an SCS.1 DaRouter icon. That is it. You are done!
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3. Once the installer has started, click Continue. (Figure 4.18)
Figure 4.18
4. Read the license agreement and click Continue. In the next dialog, click Agree. (Figure 4.19)
Figure 4.19
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5. Next, you can set the default path of the program. Click Install unless you want to install DaRouter to a
specific destination. (Figure 4.20)
Figure 4.20
6. DaRouter will be installed. Once done, click Close. (Figure 4.21)
Figure 4.21
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7. DaRouter will be installed into your Applications folder and the presets will be placed in your home
directory. Plug in your SCS.1 controller, power it ON, connect the FireWire cable to your computer, start
DaRouter, and read the rest of this documentation. (Figure 4.22)
Figure 4.22
Now that you have installed DaRouter, let’s learn about it.
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5.
DaRouter
5.1
About DaRouter
DaRouter is an application developed between Stanton and Bome’s Software, which allows the SCS.1 devices to
specifically integrate and interact with audio applications. DaRouter takes incoming messages coming from a SCS.1
device using a proprietary high speed messaging protocol and translates them to the host target audio application
through the form of presets. This translation process allows the unit to change its functionality depending on
which mode the unit is in and the desired host application functionality. Every single action on the SCS.1
controllers is processed through DaRouter, which means that as applications evolve, so do presets… More
importantly, presets can be created and edited freely with virtually no limit to what SCS.1 controllers can do, thus
opening up a whole element in control surface DJing. It is important to constantly check the Stanton website and
forums for new presets.
5.2
Anatomy of DaRouter
DaRouter is the brains behind interaction between SCS.1 controllers and the application they are being used with.
DaRouter is designed to sit in the background and just translate MIDI but does have some functionality to load
presets and configure your SCS.1 controllers with DaRouter/Active preset. Before we load a preset, let’s take a
quick tour of what everything inside of DaRouter does.
To easily describe DaRouter, we divided its interface in three sections: A, B, and C respectively.
(Figure 5.1)
Figure 5.1
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5.2.1
Section A
Active Preset Dropdown
The Active Preset is the currently used preset. In this drop down menu, all
pre‐installed presets will be listed as well as any presets dragged or manually
loaded into DaRouter. To load a preset into DaRouter, just select one from
the list.
At the bottom of the drop down list is a Browse listing that can be used to
manually browse a preset using a file explorer dialog.
Restart Preset Button
The Restart button will start the currently running preset. This should not
need to be used, but gives you the option to restart a preset in case of any
problems.
Figure 5.2
Preset Documentation Button
The Preset Documentation button (shown as “?”) will load the HTML documentation associated with the selected
preset. The preset documentation includes all the setup instructions for using the preset with the application it
was designed for. To fully take advantage of the SCS.1 capabilities it is strongly recommended to click the Preset
Documentation button and read its content every time that you load a new preset. (Figure 5.2)
5.2.2
Section B
Device Configuration
This section indicates if a device is required for use with a preset, and if that
device is connected. For “Single” presets, only one device is required. For
“Dual” presets, two devices are required. When a device is not used in a
preset, the image will be ghosted. When a device is used, the image will be
gray, and when the device is detected (plugged in), it will glow blue to
indicate connectivity.
Device Dropdown
The device dropdown menu will list any detected devices by their serial
number. Selecting a device will assign it to the deck used in the preset. Once
this assignment is made, DaRouter will remember the assignment for future
use so you do not need to assign the device each time. (Figure 5.3)
Figure 5.3
Options
Below each Device Dropdown menu there is a button called Options. Clicking on it will allow you to change several
important settings.
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For example, if you click the SCS.1m Options button the
SCS.1m Audio Control Panel will open so you will be able to Start and Stop
the streaming process, access the Deferred Procedure Calls (DPC) Latency
Checker (for more information please read the Appendix), and select the
Sampling Rate, FireWire Latency, and ASIO Buffering settings. (Figure 5.4)
Start / Stop Streaming – Use this to start or stop the audio stream between
the driver and hardware. If streaming has been stopped, then no audio will
be passed to the hardware.
DPC Latency Tool – Stanton includes a troubleshooting tool for detecting
high DPC latency. When there is high DPC latency apparent on a machine it
can affect the performance of audio and MIDI streaming. You must have low
DPC latency to achieve consistent performance and low latencies.
Figure 5.4
Sampling Rate – Sampling rate will set the resolution of the audio coming from the outputs of SCS.1m. Higher
sampling rates mean more audio fidelity but also more processing on the computer and should only be used on
newer machines. Another consideration is the material being played. For instance, 96 kHz should only be used if
your source audio is high resolution whereas 44.1 kHz or 48 kHz should be used for MP3’s and CD quality content.
FireWire Latency – This sets the latency or speed in which audio is sent to the hardware. Low latency will make the
controls feel “snappier.” However, your computer must be able to support these low speeds. If the computer
cannot support low latency, then audio hiccups or “drop outs” might be observed. If low latency is not achieved
with a high‐end machine, it is suggested to use the DPC tool and follow the instructions in Appendix for system
optimization.
ASIO Buffering – This controls the buffers used between the driver and host application. Low buffering will mean
higher speed / lower latency but requires a high‐end computer.
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Now, if you click the SCS.1d Options button the SCS.1d Control Panel will
open, so you will be able to change the Scratch Engage, the Scratch Release,
and Pitch Bend Sensitivity values. (Figure 5.5)
Scratch Engage Sensitivity – The SCS.1d uses an algorithm to detect
scratching to accommodate MIDI scratching implementation in host
applications such as Traktor. The Scratch Engage slider will set how quickly
the scratch algorithm will detect that you are trying to perform a scratch.
Higher settings will make the algorithm more snappy. However, if you set
this value too high you run the risk of mistriggering a scratch message with
the slightest variance in record speed.
Scratch Release Sensitivity – This slider controls how quickly the SCS.1d will
detect the record being released and catching up to speed with the platter
thus entering regular playback mode and disabling scratching in the host
application.
Figure 5.5
Pitch Bend Sensitivity – The SCS.1d also has the ability to detect when the platter is being rubbed manually by
hand to slow or speed the track up. This is detected when the platter and record change speed at the same time
(whereas with scratching the platter keeps spinning at its set speed). Setting this value will change the sensitivity
and once again, making it too sensitive might cause mistriggers of the pitch bend message going to the host
application.
5.2.3
Section C
Activity Monitor
The activity monitor indicates messages flowing in and out of DaRouter.
The first arrow indicates an incoming message. The DaRouter icon
indicates a translation occurring, and the last arrow indicates an outgoing
message. The images will glow blue to indicate they are processing an
action.
Logos
Just for bling... actually, they do link to websites.
Version
This displays the current version of DaRouter. (Figure 5.6)
Figure 5.6
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5.3
Using DaRouter
When using DaRouter, there are two basic types of presets that you may utilize; generic and application specific.
The generic preset allows you to configure the application to the SCS.1 controllers through conventional MIDI
Learn. However, the application specific presets are designed to work specifically with certain applications and
provide logic in the SCS.1 controllers that is focused towards that application.
5.4
Loading a Preset
Confirm that no preset is loaded and your SCS.1 controller(s) is connected. At this point, you may select the preset
you wish to use and then read its included documentation by clicking the “?” button. Also, remember to check the
Stanton website for the latest presets as they are constantly being updated to support new functionality and
applications!
5.5
Using a Preset for the First Time
1) Select the desired preset you would like to use depending on which application you are using DaRouter with.
2) Move any faders, switches or knobs on the SCS.1 controllers, to confirm feedback is making its way into
DaRouter and the unit should load the preset and stop flashing.
3) Now you are ready to use the preset.
Important Click the “?” button next to the preset (Figure 5.7) to read its included HTML documentation which
explains setting up the host application and the functionality of the SCS.1 controllers with that particular preset.
Figure 5.7
For more information about the specific SCS.1 presets always check the Stanton website for the latest presets and
documentation.
27
6.
Troubleshooting
1. I have both the SCS.1m and SCS.1d, and when I try to power them up nothing happens. What is wrong?
You probably have the power supplies for each controller swapped. If you plug the wrong power cord into
a unit, it won’t power up. The power cable for the SCS.1m supplies 12V, and the one for the SCS.1d
supplies 24V. You can also tell which is which by the color‐coding. For example, gray for the SCS.1m and
blue for the SCS.1d.
2. Can I use the FireWire cable alone to power the SCS.1 controllers?
No, the SCS.1 controllers require external power. We intentionally wanted power to be supplied to
guarantee that consistent performance is achievable as not all bus power on the FireWire port is stable
across machines.
3. I cannot find the driver for my controller.
In Windows, the driver installer is combined into the SCS.1 DaRouter software. In OS X, the SCS.1m
controllers is Core Audio compliant and doesn’t need a driver, however both the SCS.1d and SCS.1m
require DaRouter to translate their control data into MIDI. As stated in the installation procedure, make
sure you download the latest driver from the Stanton website.
4. My computer does not have a 6 pin FireWire port on it.
Use the 6 to 4 pin adapter included in the packaging.
5. My computer doesn’t have a FireWire adapter at all.
In most cases, a FireWire interface can be easily added to a computer. For laptops, you need to look for
either a PCMCIA or ExpressCard based adapter (which one to use depends on the card slot your computer
is equipped with). For desktops, you should use an add‐in PCI FireWire card. Please do not use a
USB‐to‐FireWire adapter cable because it will severely degrade performance. Check the appendix of this
manual for suggestions on choosing a FireWire card.
6. I am getting click and pops in my audio.
This can be many things. Do you hear noise even when there’s no software playback? If so, then the cause
is likely a ground loop (especially if it goes away when running the computer on battery power).
If not, does increasing the buffering in the driver make the problem go away? If so, then it could be an
issue with your system performance. For OS tweaks, please read the Appendix Optimizing Computers for
1394.
If neither of the previous options seems to fix the issue, let’s try a couple of more alternatives.
Do you have multiple FireWire devices connected? If so, try using just the SCS.1m. If that addresses your
issue, then try re‐ordering the devices in the FireWire chain. You should always have the SCS.1 controllers
“closest” to the computer and plug other devices (drives, etc) into them (or run your drives on a separate
port altogether). If you’re running Windows XP, you might need the SidSpeed fix outlined in the appendix
of this manual.
To contact Tech Support, please call us at +1 954.316.1500 and select the SCS.1 option.
28
7.
Specifications
Motor Type
16 Pole, 3 phase, brushless DC motor
33 1/3 rpm, 45 rpm
>4.5 kgf.cm
.2 seconds
FireWire 400
Motor Speeds
Starting Torque
Start / Stop Time
FireWire Speed
Power
24 VDC / 3.0 Amps
29
Appendix
Optimizing Computers for 1394 (FireWire)
When using any computer for live audio applications it is always suggested to perform certain optimizations to
ensure consistent performance. For the most part live audio is not always the highest consideration for both
hardware designers and software programmers. With that being said, Stanton has put together this guide and
included one of the most widely used troubleshooting tools (DPC Latency Checker) with the SCS1 to help optimize
your computer by performing certain tweaks, which we have found increases performance and stability
substantially.
If you are having issues getting your computer to recognize the SCS.1 controllers then it is suggested to start with
the SidSpeed fix. If you are having issues with audio performance (drop outs) then it is first suggested to perform
the following steps:
• Disable wireless internet devices
• If running Windows on a Mac (Boot Camp), kill the process “KbdMgr.exe”
• Disable ACPI
• Perform DPC checks (below)
• Perform the SidSpeed fix (below)
• Check the brand of 1394 host controller you are using.
Please read the next page about the (DPC) Latency Checker.
DPC (Windows XP‐Vista)
During the SCS.1 driver installation process, we are also installing the Deferred Procedure Calls (DPC) Latency
Checker. This useful Windows application not only analyzes how your computer is handling real‐time data streams
but also helps you to find the potential cause for drop‐outs (interruptions in real‐time audio and video stream). In
fact, the DPC Latency Checker will allow you to find out the driver that causes the excessive DPC latencies so then
you are able to disable it through the Windows Device Manager. In other words, using this application will help you
to optimize your system so everything runs smoothly while using the SCS.1 controllers.
Let’s take a look of its main window. (Figure A.1)
30
Figure A.1
The green Bar Graph shows the current latency value over time. Each bar represents the maximum DPC latency
occurred within one second. Every second, bars are scrolled from right to left and a new bar is added at the right‐
hand side, (representing the most recent value).
DPC Latency Checker updates its internal statistical data at an interval displayed as Test Interval.
The Current Latency value indicates the maximum DPC latency measured within the last second.
The Absolute Maximum value represents the maximum latency measured since the tool was started.
Click Reset to clear this value.
To stop the Latency click Stop, and to exit the application click Exit.
31
For example, a typical problem is sho
wn in the next
figure. Red bars indicate exc
essive DPC latency. (Figure A.2)
Figure A.2
So let’s open Device Manager to find out the driver that causes the excessive DPC latencies. On your desktop, right
click My Computer icon and click Properties. In the System Properties window, click the Hardware tab, and then
click the Device Manager button. In the next page, please check Figure A.3.
32
Figure A.3
Now, before you start finding out which device could be the cause of the excessive DPC latency, please follow
these suggestions:
You should not disable:
• any device listed in Device Manager under System devices or Computer
• the hard disk that contains the system partition
• the IDE/ATAPI or SATA controller this hard disk is connected to
• the system keyboard
• the mouse, track point or touch pad device
• the USB controller external keyboard and/or mouse devices are connected to
• the display controller listed under Display adapters
Try to disable the following devices first:
• Network adapters for Ethernet and Wireless LAN (W‐LAN)
• ACPI Power Management
• Internal modems
• Internal sound devices (on‐board sound systems)
• Any PCI or PCI Express add‐on card, any PCCard or ExpressCard, e.g., TV tuner cards, ISDN or DSL adapters,
modems, etc.
33
To disable a device, right
‐click on it (e
.g. on the Eth
ernet adapter) and choose Disable. The disabled device will be
marked with a red cross. (Figure A.4)
Figure A.4
Now, check the DPC Latency Checker to see if the excessive latency values (red bars) disappeared.
If yes, we have found the problem, if not, try the next device. To enable a device again, choose Enable from the
context menu.
After you have identified the device driver which is responsible for the dropouts, visit the device vendor's Web site
or contact its Customer Support department to find an update for this driver. If there is no update available at the
moment, you may decide to disable that particular device while you are using streaming applications.
34
Windows 1394a Bandwidth Limiting Issue / SidSpeed Fix (Windows XP‐Vista)
First, let’s explain a little about what the SidSpeed Fix is. Basically, SidSpeed is a value in your windows registry that
regulates the speed of your FireWire bus. It can have a value from 0‐3 (0=S100 speed, 1=S200 speed, 2=S400
speed, and 3=800 speed). If a SidSpeed value larger than 3 is used, then Windows will reject that and use a value of
0 instead, so it’s important to use a value of 0‐3.
Normally, the default value for SidSpeed is 2, which corresponds to a transfer rate of 400 mbps (FireWire 400).
This speed is standard for most audio interfaces, including ours. The problem is that there are situations where this
value can be lowered to “0” during an OS update and result in choppy and unusable performance for streaming
audio. This issue seems to have first been encountered in the SP2 update for Windows XP…
…and came back again with the XP SP3 update.
We’ve also seen incorrect (or no) SidSpeed value set in Windows Vista. So now that you have some background,
let’s walk through a fix that should work regardless of what version of Windows you’re using.
Log in as Administrator on your computer (or as a User that has Administrator rights). Click on Start, and then click
Run. (Figure A.5)
Figure A.5
This will open the Run command box. In the entry field, type the word regedit (Figure A.6)
Figure A.6
35
This will open your Regis
try Editor, which will look like this…(Figure A.7)
Figure A.7
Now, before we go any further, we need to give you a warning and back some things up.
The registry is a dangerous place to be playing around. Using this tool makes it very easy to completely ruin your
installation of Windows. Please do not do anything that isn’t outlined in this guide. If you have any question at all
about what you should be doing, stop and contact Technical Support.
OK, now we’re ready to backup your registry (or at least the part of it that we’ll be modifying). Look in the left
hand side of the split pane in regedit and locate the branch called HKEY_LOCAL_MACHINE. Click it once to highlight
it. (Figure A.8)
Figure A.8
36
Now click File, and then c
lick Export. A new window
will pop up. (Figure A.9)
Figure A.9
At the bottom of the new window, there is an area called Export Range. Make sure that Selected Branch is marked,
and that the text in the field there says HKEY_LOCAL_MACHINE. Go to the top of the window and find the Save In
drop down. Select a location to save the backup that you will remember (like your desktop). Now go down to the
File Name field and type in a name for the backup. Press the Save button and wait until the hourglass disappears.
You have now backed up a registry branch. Although this is not necessary, at this point I would recommend also
saving the registry backup you just made to an external device like a USB flash drive. If you make a mistake and
there are problems booting into Windows later, this will make restoring the registry much easier. Now let’s look
for the SidSpeed value.
Expand HKEY_LOCAL_MACHINE (Figure A.10)
Figure A.10
37
Then expand the SYSTEM
branch. (Figure A.11)
Figure A.11
Then expand CurrentControlSet. (Figure A.12)
Figure A.12
38
Now expand Enum. (Figure A.13)
Figure A.13
39
Then expand the PCI branch. (Figure A.14)
Figure A.14
Now we need to find the specific key for your FireWire controller. As you can see, all the devices are named in a
way that does not seem to make a whole lot of sense. It is not as hard as it may look.
40
Leave the Regedit windo
w open and g
o back to Start > Run. Type in devmgmt.m
sc and then press OK. (Figure A.15)
Figure A.15
This will open your Device Manager. Look for your FireWire controller (commonly called IEEE 1394). One example
is highlighted in Figure A.16).
Figure A.16
Right click on your FireWire device and click Properties.
41
Now click on the Details tab. (Figure A.17)
Figure A.17
See this string of text? This is what we are going to look for in the PCI branch we have open in Regedit.
Going back to Regedit, we can see that I got a little lucky and have it as the first key. (Figure A.18)
Figure A.18
42
If you expand out the de
vice subkey,
you’ll find another subkey called Device Parameters. Click it to select it and
look in the right pane. (Figure A.19)
Figure A.19
In the example above, the SidSpeed key actually exists, but it is set to the incorrect speed. Double click on the
SidSpeed value and a window will open. In that window will be a field called Value Data. If that value is a 0 or 1,
CHANGE IT to a 3 and press OK. If you do not see the SidSpeed value at all, keep reading. (Figure A.20)
Figure A.20
43
If you do not have the S
idSpeed valu
e, you will need to make on
e. Right click in the right pane and select New >
DWORD Value. (Figure A.21)
Figure A.21
Once you have created a new string, name it SidSpeed (Figure A.22)
Figure A.22
Finally, double click SidSpeed and change its value data to 3 as outlined above. Press OK and close the Registry
Editor.
If you encounter an error during any step of this process (especially Vista users and errors about not having proper
rights to alter a registry value), please contact Stanton Technical support. If you made a mistake and need to
restore your registry, just double click on the backup you made right before we started and follow the prompts.
Reboot afterwards.
44
FireWire Chipsets
High definition audio flowing over FireWire requires a consistent stream between the chipset in the host computer
and the chipset in the SCS1 device. Unfortunately, some FireWire chipsets have known issues when it comes to the
reliability and synchronization required for streaming audio. It is suggested to use name brand PCI and PCMCIA
cards such as Adaptec® when your PC does not have FireWire capabilities, as some no‐name or “OEM” FireWire
cards will use chipsets of FireWire that have subpar performance and can affect stability or at worst the device will
not work at all. Stanton recommends the Texas Instruments® FireWire chips for streaming audio. It is also
suggested to stay away from Agere® chipsets as in testing issues have been identified with these chipsets. Most
Apple computers utilize Texas Instruments chipsets. However, it was reported that in late 2007 Apple had switched
to Agere chipsets for some production runs.
The easiest way to check if you have a Texas Instruments chipset is to run Device Manager and check the name of
your host controller. (Figure A.23)
Figure A.23
45
Model Type _________ Model No. _________ Serial No. ________________
Date of Purchase ________________________________________________
Thank you for choosing Stanton!
Your satisfaction is extremely important to us. We proudly stand behind the quality of our work and appreciate
that you put your trust in us. Registering your product will help us guarantee that you are kept up to date on our
latest advances.
Warranty Service in the United States:
Please contact Stanton Tech Support BEFORE sending your product. In some cases, our Tech Support team can
resolve your problem immediately, avoiding down time due to shipping delays. However, if Tech Support
determines that a repair is needed; please call us at +1 954.316.1500 (Option 3) to obtain a Return Authorization
Number (RA#) PRIOR to shipping your product to us.
Warranty Service outside the United States:
To initiate a warranty repair, please contact the authorized Stanton dealer from whom you purchased your
product, and follow the dealer’s return policy.
Save your shipping boxes and all packaging materials!
For the fastest and safest product return to Stanton, please use the original shipping carton and packaging
materials. Stanton cannot be responsible for any damages incurred during the shipping process due to poor or
inadequate packing. Please remember to insure your shipment!
46
Stanton Warranty
Through Stanton's authorized dealers around the World, Stanton, or one of Stanton's authorized distributors outside the U.S., will, without charge, repair or replace,
at the sole discretion of the entity responsible for making the repair or providing the replacement, any Stanton merchandise proved defective in material or
workmanship for a period of one (1) year following the date of original purchase. Exceptions to this warranty are as noted below:
The warranty for mechanical parts which are subject to wear and tear are limited to either the earlier of thirty (30) days following the date of original purchase or
for 10,000 cycles for switches.
Stanton will warrant all replacement parts and repairs for ninety (90) days from the date of original shipment. Repairs made necessary by reason of misuse,
alteration, normal wear, or accident are not covered under this warranty.
Returns
Authorized Stanton dealers are only authorized to sell and distribute merchandise within a specific country. All goods requiring warranty repair or replacement must
be returned (freight prepaid if not hand‐delivered) to the authorized Stanton dealer from whom the merchandise was purchased and in the same country where the
merchandise was purchased. For purposes of purchases made via the Internet, the merchandise must be returned to the authorized Stanton dealer in the country
where the authorized Stanton dealer which sold the merchandise to purchaser is located and not the authorized Stanton dealer in the country where the purchaser
is located or the country in which the merchandise was received. Any returns to a non‐authorized dealer or to an authorized Stanton dealer not in the same country
as the merchandise was intended to be sold or as set forth above will void this warranty.
To initiate a warranty repair, you must contact the authorized Stanton dealer from whom you purchased the merchandise, and follow such authorized Stanton
dealer's return policy.
Stanton assumes no risk and shall be subject to no liability for damages or loss resulting from the specific use or application made of the merchandise. Stanton's
liability for any claim, whether based on breach of contract, negligence, infringement of any rights of any party, or product liability, and relating to the merchandise
shall not exceed the price received by Stanton from your purchase of such merchandise. In no event will Stanton be liable for any special, incidental or
consequential damages (including loss of use, loss of profit and claims of third parties) however caused, whether by the negligence of Stanton or otherwise. To the
extent permitted by law and except as otherwise provided above, Stanton disclaims any express or implied warranties of merchantability or fitness for a particular
purpose.
The above warranty provides you with specific legal rights. You may also have additional rights, which are subject to variation from state to state and country to
country.
If there is a dispute regarding the warranty of merchandise that does not fall under the warranty conditions stated above, please include a written explanation with
the merchandise when returned pursuant to the terms and conditions set forth herein.
47
Copyright © 2008 Stanton Magnetics, Inc.
SC System, DaRouter, SCS.1m, and SCS.1d are trademarks of the Stanton Group.
All other trademarks are property of their respective owners, who are in no way affiliated with Stanton DJ or SC System products.
All information included in the User Manual is subject to change without notice.
(+1.877.578.6866)
LITKS00024 REV-A 12/24/2008
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