Tannoy CMS 60TDC User Manual

B

CMS60 TDC – 60 / CMS60 TDC - 8

User Manual

HOLE CUT- OUT SIZE

305mm (12”)

CONTENTS

1. Introduction

2. Unpacking

2.1 CMS60 TDC – 60 / CMS60 TDC - 8 – The Product

2.2 The C-ring

2.3 The Tile Bridge and C-ring

2.4 The Plaster ‘Mud’ Ring

3. Installation Instructions

3.1 Hole Cut Out

3.2 Connections

3.3 Installation

3.4 Speaker Assembly with C-ring

3.5 Speaker Assembly with Tile Bridge and C-ring

4. Polarity Checking

5. Amplification and Power Selection (Low Impedance Mode)

6. Voltage and Power Selection (Distributed Line Operation)

7. Equalisation

8. Dimensions

9. Performance Data

10. Technical Specifications

11. CMS60 TDC Recommended Service Parts & Accessories

12. Warranty

13. Declaration of Conformity

1. Introduction

The Tannoy CMS60 TDC – 60 / CMS60 TDC - 8 Ceiling Monitor System has been designed
for high-level music and speech reinforcement applications requiring exceptional sonic quality
with uncompromised reliability. The utmost consideration has been given to the installation
procedure to ensure that this product is quick and easy to install.

The CMS60TDC is best described as a premium quality ‘Ceiling Monitor System’; the heart of
which is the 165mm (6.5”) Tannoy proprietary Dual ConcentricTM transducer. This drive unit,
also used in Tannoy studio monitors, incorporates latest generation design features including
a dual magnet assembly, HF Tulip WaveGuideTM and injection moulded polypropylene LF
cone. The low frequency (LF) and high frequency (HF) sources are coincidentally aligned to a
point source, resulting in a smooth uniform frequency response over a wide area of coverage,
this is unachievable with discrete two-way designs in the vertical plane where massive
cancellations appear off axis at the crossover frequency.

The Tannoy proprietary Dual ConcentricTM transducer is housed in a rugged aluminium ceiling
enclosure that has been optimally tuned to achieve maximum bass response and tonal
balance. Also located in this enclosure is a Tannoy THP60 multi-tap transformer for
distributed-line operation. The transformer provides high system sensitivity, a wide bandwidth
and dynamic range, with very low insertion loss. The CMS60 TDC – 60 / CMS60 TDC - 8 can
also be used in low impedance systems with this selection being made (along with the
transformer tapping options) via a single rotary switch located on the front baffle for quick and
simple commissioning.

*No Transformer with CMS60 TDC – 8, low impedance only.

2. Unpacking

Every Tannoy CMS60 TDC – 60 / CMS60 TDC - 8 product has been carefully tested and
inspected before being packaged and leaving the factory to make sure it reaches you in
perfect condition. However, we would ask you to make sure that no damage has occurred in
transit. In the unlikely event of any damage, would you please notify your dealer immediately
and retain the carton and packing materials. Your dealer may ask you to return the damaged
unit for inspection.

The CMS60 TDC – 60 / CMS60 TDC - 8 is packed in pairs, and any additional optional extras
will be provided in separate packaging. These options include: C Ring, Tile Bridge and Plaster
Ring. The cardboard paint guard should be removed before use.

2.1 CMS60 TDC – 60 / CMS60 TDC - 8 – The Product

2.2 The C-ring (Optional)

2.3 The Tile Bridge and C-ring (Optional)

2.4 The Plaster ‘Mud’ Ring (Optional)

3. Installation Instructions

+ - - +

3.1 Hole Cut Out

The cutout size required is 305mm (12”)

3.2 Connections

The CMS60 TDC – 60 / CMS60 TDC - 8 is provided with a plugable European type
connector, which is located on the back of the speaker can, under the wiring cover as shown
in Figure 3a below. This consists of a plug and socket. The plug can be removed from the
socket (Figure 3b) for wiring.

Figure 3a. Figure 3b.

The plug is wired to the amplifier such that the connections are as follows:

Pin 1 is Positive
Pin 2 is Negative

For additional speakers, pin 3 and 4 are in parallel with pins 1 and 2, where:

Pin 3 is Negative
Pin 4 is Positive

Before connecting the speaker, ensure the wiring cover and cable clamp on the back of the
can are open as shown in Figure 3c. Connect the wired plug into the socket.

Figure 3c

When the plug has been connected, close the wiring cover as shown in Figure 3d, below:
Place the wires in the recess in the cable clamp. Close the cable clamp as shown in Figure

3e and tighten the screw holding the clamp in order to secure the cables in place.

Figure 3d Figure 3e

3.3 Installation

The CMS60 TDC – 60 / CMS60 TDC - 8 is supplied as a complete product, ready for
installation. An optional C Ring, Tile Bridge and Plaster Ring are available if required. The
CMS60 TDC– 60 / CMS60 TDC - 8 has been designed for ease of installation.

To install the speaker, connect the speaker as described in the section 3.2. The speaker has
4 tags (Figure f), which hold the speaker in place. Ensure these tags are flat against the can
before installing into the ceiling.

Tags for fastening speaker

Screws for tightening tags

Figure f.

Slide the speaker through the 305mm hole, as shown in figure g, and tighten the outer
screws on the front baffle. Tighten these screws until a secure grip is established as shown in

Figure h.

Figure g

Figure h

3.4 Speaker Assembly with C-ring

To spread the weight / pressure of the 4 tags, an optional C-ring is available for the CMS60
TDC – 60 / CMS60 TDC - 8. To install the speaker in the ceiling, place the C-ring behind the
surface by separating opening of the C-ring and twisting it through the hole. Slide the speaker
assembly through the hole and tighten the tag screws, until a firm grip is achieved,

3.5 Speaker Assembly with Tile Bridge and C-ring

If the speaker requires additional support, an optional Tile-bridge is also available for use in
conjunction with the C-Ring. This is assembled as shown in below. The Tile Bridge is
attached to the C-ring, and the tile bridge supports are placed either on the supporting
framework for the false ceiling or inside the framework, depending on the ceiling grid spacing.
Slide the speaker assembly through the hole and tighten the tag screws, until a firm grip is
achieved.

Figure k

3.6 Speaker Assembly with Plaster ‘Mud’ Ring

Important: Connect a safety cable to the rear

NOTE: the installation of this product must be

local building codes
and standards. If necessary consult your local
safety standards officer before installing any
product. Alternatively, check any laws or bylaws.
Tannoy will not be held responsible for any

An optional plaster (Mud) ring can be used if a conventional ceiling tile is not being used. The
wings on the plaster ring are attached to the building structure using the holes provided. The
plaster is then applied over the bracket.

4. Polarity Checking

It is most important to check the polarity of the wiring. A simple method of doing this without a
pulse based polarity checker is as follows: Connect two wires to the +ve and -ve terminals of a
PP3 battery. Apply the wire that is connected to the +ve terminal of the battery to the speaker
cable leg which you believe to be connected to the red speaker terminal, and likewise the -ve
leg of the battery to the black speaker terminal.

If you have wired it correctly the LF drive unit will move forward, indicating the wiring is
correct. All that remains now is to connect the +ve speaker lead to the +
amplifier and the -ve lead to the -ve terminal on the amplifier. If, however, the LF driver moves
backwards, the input connections need to be inverted.

If problems are encountered, inspect the cable wiring in the first instance. It should also be
noted that different amplifier manufacturers utilise different pin configurations and polarity
conventions. If you are using amplifiers from more than one manufacturer, check the polarity
at the amplifiers as well as the loudspeakers.

of the speaker can.

carried out in conformity with

damages caused by the improper installation of
loudspeaker.

ve

terminal on the

5. Amplification and Power Selection (Low Impedance Mode)

uation of the building is complete. Suitable measures include:

As with all professional loudspeaker systems, the power handling is a function of voice coil
thermal capacity. Care should be taken to avoid running the amplifier into clip (clipping is the
end result of overdriving any amplifier). Damage to the loudspeaker will be sustained if the
amplifier is driven into clip for any extended period of time. Headroom of at least 3 dB should
be allowed. When evaluating an amplifier, it is important to take into account its behaviour
under low impedance load conditions. A loudspeaker system is highly reactive and with
transient signals it can require more current than the nominal impedance would indicate.

Generally higher power amplifier running free of distortion will do less damage to the
loudspeaker than a lower power amplifier continually clipping. It is also worth remembering
that a high powered amplifier running at less than 90% of output power generally sounds a lot
better than a lower power amplifier running at 100%. An amplifier with insufficient drive
capability will not allow the full performance of the loudspeaker to be realised.

It is important when using different manufacturers amplifiers in a single installation that they
have very closely matched gains, the variation should be less than +/-0.5dB. This precaution
is important to the overall system balance when only a single compressor/limiter or active
crossover is being used with multiple cabinets; it is therefore recommended that the same
amplifiers be used throughout.

6. Voltage and Power Selection (Distributed Line Operation)

When using 70.7V or 100V distributed-line systems, the transformer can be tapped at 60W,
30W and 15W, with an extra 7.5W tapping for 70.7V line systems. The taps are selected via a
rotary switch, as shown in Figure 6a, and is located on the front of the unit, behind the grille,
Figure 6b.

When the relevant voltage tappings have been selected add the individual power in Watts at
all speakers and select and amplifier with a rating equal to or exceeding the total power in
Watts. All of the transformer primaries should be connected in parallel to the output of this
amplifier. If for example, you select the 7.5-watt transformer tap, it means that at full rated
amplifier output the speaker will receive the full 7.5 watts. If the amplifier gain is reduced each
speaker will receive a proportional amount of power, maintaining the overall system balance.

It is recommended that a generous power safety margin (3dB of headroom) be left so that the
system does not have to operate continuously at its full rated output power.

Figure 6a

Figure 6b

In order to comply with relevant fire safety regulations (i.e. BS 5839:1998), it is required
that in the event of fire, that failure of the circuit to which the loudspeaker is connected
does not occur before evac

a) use of terminal blocks (for connection to primary) with a melting point of not less

than 650°C, for example constructed from ceramic materials;

c) use of terminal blocks of a lower melting point but protected with thermal insulation;
d) use of terminal blocks such that, on melting, an open-circuit or a short-circuit does

not occur.

7. Equalisation

The CMS60 TDC – 60 / CMS60 TDC - 8 is designed to need no equalisation or correction to
overcome system limitations. As a result, it will only need equalisation to compensate for
difficult acoustic environments.

Excess equalisation can reduce system headroom, and introduce phase distortion resulting in
greater problems than it cures. If equalisation is required then it should be applied gently and
smoothly. Violent equalisation will be detrimental to the overall sound quality. If the
loudspeakers were being used consistently at high levels it would be beneficial to introduce a
high-pass filter at 50Hz to protect the loudspeaker from any unnecessary subsonic
frequencies.

8. Dimensions

9. Performance Data

Unprocessed Anechoic Frequency Response, 1 watt @ 1 metre

Impedance

Degrees

360

330

300

270

240

210

180

150

120

90

60

30

0

250 315 400 500 630 800 1000 1250 1600 2000 2500 3150 4000 5000 6300 8000 10000

Beamwidth vs Frequency

Frequency (Hz)

10. Technical Specifications

Frequency Response (1) +/-3 dB 50Hz - 20kHz
Sensitivity 1W @ 1m (3) 90dB (anechoic)

93dB (half space)

Maximum SPL THP 60 108dB(average)

114dB(peak)

Low Impedance109dB(average)

115dB(peak)

Power Handling (2) Average 80 watt

Programme 160 watt

Impedance Nominal: 8ohms (on low impedance setting)
Dispersion See Beamwidth Plot
Driver Complement 6.5” (165mm) full range Dual Concentric™
Crossover 2kHz
Connectors Removable locking connector with screw

input and output terminals.

Safety Features Rear safety tie back ring located at rear top

of enclosure for attachment of a load bearing
safety bond.

Enclosure 12 litres, vented with removable steel back

can

Finish White
Weight (each) 5.5kg (12.1 lbs)
Dimensions Baffle Diameter 334mm (13”)

Can Height 226mm (8”), 243mm (9 9/16”) incl. Tie

back ring

Cutout size 305mm (12”)

Accessories (Optional) C ring

Tile Bridge
Plaster (‘mud’) ring

Shipping Weight (Pair) 11.8kg (25.96 lbs)
Shipping Dimensions (Pair) 750mm x 330mm x 40mm

(29.53”) x (13”) x (15.75”)

NOTES: (1) Average over stated bandwidth. Measured at 1m on axis.
(2) Long term power handling capacity as defined in EIA standard RS - 426A.
(3) Unweighted pink noise input, measured at 1m in an anechoic chamber

A comprehensive range of measurements including off axis frequency response curves, octave & third
octave polar diagrams, beamwidth plots as well as Ease data can be downloaded from

http://www.tannoy.com/

Tannoy operates a policy of continuous research and development. The introduction of new materials or
manufacturing methods will always equal or exceed the published specifications, which Tannoy
reserves the right to alter without prior notice. Please verify the latest specifications when dealing with
critical applications.

11. CMS60 TDC Recommended Service Parts & Accessories

Part Number Description
7900 0437 Driver Kit – 6.5” Type 1667
7900 0306 Recone Kit
7900 0648 HF Diaphragm
8001 1920 CMS60 C Ring
8000 1910 CMS60 Tile Bridge
8000 1900 CMS60 Plaster Ring

12. Warranty

No maintenance of the CMS60 TDC loudspeaker is necessary.

As part of the MUSIC Group, Tannoy is committed to providing the highest quality products,
service and user experience for our customers. One element of this commitment is our after
sales support which now incorporates our extended Limited Warranty. In the event of any
concern that is not addressed by this extended Limited Warranty we would ask you to contact
us at care@music-group.com

For full warranty details including the extended Limited Warranty, please visit
http://www.music-group.com/warranty.aspx and register your purchase online at
www.music-group.com or www.tannoy.com

Customer Services

Music Group Innovation SC Ltd

Rosehall Industrial Estate
Coatbridge
Strathclyde
ML5 4TF
Scotland

Telephone: 01236 420199 (National)

+44 1236 420199 (International)

Fax: 01236 428230 (National)

+44 1236 428230 (International)

e-mail: prosales@tannoy.com

DO NOT SHIP ANY PRODUCT TO TANNOY WITHOUT PREVIOUS AUTHORISATION

Our policy commits us to incorporating improvements to our products through continuous
research and development. Please confirm current specifications for critical applications with
your supplier.

13. Declaration of Conformity

The following apparatus is/are manufactured in the United Kingdom
by Music Group Innovation SC Ltd of Rosehall Industrial estate,
Coatbridge, Scotland, ML5 4TF and conform(s) to the protection
requirements of the European Electromagnetic Compatibility
Standards and Directives relevant to Domestic Electrical Equipment.
The apparatus is designed and constructed such that
electromagnetic disturbances generated do not exceed levels
allowing radio and telecommunications equipment and other
apparatus to operate as intended, and, the apparatus has an
adequate level of intrinsic immunity to electromagnetic disturbance

Details of the Apparatus: Tannoy Contractor Loudspeaker
Model Number: CMS60 TDC
Associated Technical File: EMC CMS60 TDC
Applicable Standards: EN 50081-1 Emission
EN 50082-1 Immunity
Electrical Safety: EN 60065

Signed:

to enable operation as specified and intended.

Position: Engineering Director – Professional
Products
Tannoy Professional

Date: 20/11/2015

For Music Group Innovation SC Ltd

B

Tannoy Loudspeakers are manufactured
in Great Britain by :

Tannoy Ltd, Rosehall Industrial Estate, Coatbridge,
Strathclyde, ML5 4TF, SCOTLAND
Telephone: +44 (0)1236 420199 Fax: +44 (0)1236 428230

Tannoy North America Inc, Suite 1. 335 Gage Avenue, Kitchener, Ontario, CANADA, N2M 5E1
Telephone: (519) 745 1158 Fax: (519) 745 2364

Tannoy Nederland BV, Anthonetta Kuijlstraat 19, 3066 GS, Rotterdam THE NETHERLANDS
Telephone: (010) 2860554 Fax: (010) 2860431

Issue 1.0 Part No. 6481 0392

th

GH 10

October 2002