Overview
The Cisco Unified Communications 540 (Figure 1) part of the Cisco Unified Communications 500 Series for Small Business, is a critical part of the Cisco Smart Business Communications System. It is an affordable unified communications appliance that provides voice, data, voicemail, automated attendant, video, security, and wireless capabilities while integrating with existing desktop applications such as calendar, email, and customer relationship management (CRM) programs. This easy-to-manage platform supports up to 32 phones and voice mailboxes and provides flexible deployment options based on your needs, including support for a wide array of IP phones, public switched telephone network (PSTN) interfaces, and Internet connectivity. This reference guide describes the specifications and capabilities of the Cisco Unified Communications 540 (UC 540).
Figure 1. Cisco Unified Communications 540 Models: FXO (Left) and BRI (Right)
Product Part Numbers
The Cisco UC 540 is available in two versions, an FXO (analog) model and a Basic Rate Interface (BRI) base model. With ease of ordering as a focus area, each has its own product ID. In addition, there is one software licensing product, multiples of which can be installed to achieve the desired user count. Table 1 lists the part numbers for the Cisco UC 540.
Table 1. Product Part Numbers for the Cisco UC 540
|
Part Number
|
Description
|
|
UC540W-FXO-K9
|
UC 540 system with 4 FXO, 4 FXS, and 1 voice interface card (VIC) expansion slot
|
|
UC540W-BRI-K9
|
UC 540 system with 2 BRI, 4 FXS, and 1 VIC expansion slot
|
|
L-UC-PRO-8U=
|
Software license upgrade, authorizing an additional 8 users (eDelivery)
|
Interfaces and Modules
The Cisco UC 540 has built-in interfaces that offer fixed configurations, reducing complexity. In addition, this platform offers one (1) voice interface card (VIC) slot to support additional Cisco VIC modules. Table 2 lists the built-in interfaces, and Table 3 lists the modular interfaces supported on the UC 540.
Table 2. Built-In Interfaces Supported on the Cisco UC 540
|
Interface
|
Description
|
|
Music-on-hold port
|
Single 3.5-mm audio port
|
|
Onboard Ethernet ports
|
Eight 10/100 Mbps LAN
One 10/100 WAN uplink
One 10/100 Ethernet expansion port
|
|
Integrated inline Power over Ethernet (PoE) ports
|
8 built-in PoE ports
|
|
FXS and direct inward dialing (DID) ports
|
4 built-in FXS ports (DID is available via the additional module listed in Table 3)
|
|
PSTN interfaces (FXO or BRI)
|
4 FXO or 2 BRI ports
|
|
WLAN interface
|
An 802.11b/g access point is integrated into the UC 540, supporting up to 54-Mbps connections. The access point can be used to provide integrated WLAN connectivity to mobile clients-voice and data-resulting in mobility and enhanced productivity for users.
|
Table 3. Modular VIC Cards for the Cisco UC 540
|
Part Number
|
Description
|
|
VIC-4FXS/DID, VIC3-4FXS/DID
|
4-port FXS/DID module
|
|
VIC2-2FXS
|
2-port FXS module
|
|
VIC2-2FXO
|
2-port FXO module
|
|
VIC3-2FXS/DID
|
2-port FXS/DID module
|
|
VIC2-4FXO
|
4-port FXO module
|
|
VIC2-2BRI-NT/TE
|
2-port BRI NT/TE module
|
|
VWIC2-1MFT-T1/E1
|
1-port T1/E1 for voice (ISDN Primary Rate Interface [PRI] and channel associated signaling [CAS]); data is not supported
|
Licensing
The Cisco UC 540 includes eight user licenses. These licenses enable the use of Cisco Unified IP Phones and allow users to access the IP PBX features, including voicemail. In addition, supplementary user licenses are bundled to help with deployments that need a few extra licenses. For additional licensing needs, the L-UC-PRO-8U= may be ordered. This increases the existing license count by eight. Table 5 lists the number of users supported based on the hardware/license configurations. The UC 540 also has built-in licenses for unified communications features. Table 4 lists the license count bundled within the system for each feature. Guidance for licenses associated with voice messaging on the UC 540 is included in Table 6.
Table 4. Licensing and User Capacity for the Cisco UC 540
|
License Configuration
|
Description
|
|
UC540W-FXO-K9 or UC540W-BRI-K9
|
8 user licenses, 2 supplemental user licenses
|
|
UC540W-FXO-K9 or UC540W-BRI-K9 and one L-UC-PRO-8U=
|
16 user licenses, 2 supplemental user licenses
|
|
UC540W-FXO-K9 or UC540W-BRI-K9 and two L-UC-PRO-8U=
|
24 user licenses, 4 supplemental user licenses
|
|
UC540W-FXO-K9 or UC540W-BRI-K9 and three L-UC-PRO-8U=
|
32 user licenses, 4 supplemental user licenses
|
Table 5. Feature Licensing for the Cisco UC 540
|
Feature
|
Number of Licenses Included
|
|
Virtual LANs (VLANs)
|
5
|
|
Service Set Identifiers (SSIDs)
|
3
|
|
Broadcast SSIDs (BSSIDs)
|
1
|
|
VPN tunnels*
|
10
|
|
Remote teleworker sites
|
10
|
|
Users per teleworker site
|
5
|
|
Multisite deployments
|
5
|
* Includes IP security (IPSec), Secure Sockets Layer (SSL), or generic routing encapsulation (GRE) tunnels.
Table 6. Voice Messaging Licensing for the Cisco UC 540
|
Configuration
|
Voice Messaging Licenses
|
|
8-user system
|
16 mailboxes*
|
|
16-user system
|
24 mailboxes*
|
|
24-user system
|
40 mailboxes*
|
|
32-user system
|
48 mailboxes*
|
|
Sessions to voicemail and automated attendant
|
6
|
|
Internet Message Access Protocol (IMAP) sessions
|
20**
|
* 32 hours of voicemail storage is available by default across all user configurations. Any combination of personal mailboxes and general delivery mailboxes can be used.
** There are 20 simultaneous sessions available between IMAP Client and IMAP server. If all 20 sessions are used up, the remaining session requests will be rejected by the IMAP server. IMAP clients will automatically attempt to establish session with the server once some of the server ports are freed up. This does not limit the number of IMAP clients to 20.
Basic Call Center Capabilities
The Cisco UC 540 supports basic automatic call distribution (BACD) that can help answer outside calls with greetings and menus and allow callers to select the appropriate departments. BACD also provides managed call queues for calls that are waiting to be answered. Table 7 lists the BACD capabilities of the UC 540.
Table 7. Cisco UC 540 BACD Capabilities
|
Feature
|
Number
|
|
Hunt groups associated with a BACD
|
10
|
|
Calls allowed in each call queue
|
30
|
|
Agents (members) for each hunt group
|
20
|
|
Statistics accumulated for all BACD groups
|
168 hours
|
|
Hunt groups used with automated attendant
|
3
|
In addition to BACD, the Cisco UC 540 integrates with Cisco Unified Contact Center Express (UCCX). UCCX works with up to a maximum of 12 users (agents and supervisor combined) on the UC 540.
Voice Resource Utilization
The Cisco UC 540 includes four digital signal processors (DSPs) that enable digitized voice processing on the platform. The DSP resources available on the platform are used for various unified communications features, namely support of analog and digital VICs, prescheduled or ad hoc voice conference calls, and translation of digitized voice from a less complex codec (such as g711) to a more complex codec (such as g729)-typically used for deployments that use IP trunking (SIP or H.323) for PSTN access or multisite interconnection.
Each DSP can support 16 g711 channels or 8 g729 channels. This enables a total of 64 g711 channels on the Cisco UC 540. Table 8 indicates the DSP resource utilization based on the feature. Tables 9 and 10 show a few deployment scenarios based on the combination of these features.
Table 8. DSP Resource Utilization on the Cisco UC 540
|
Feature
|
DSP Resource Utilization
|
|
Support for built-in FXS ports
|
4 channels
|
|
Support for built-in FXO ports
|
4 channels
|
|
Support for built-in music on hold (MoH) port
|
2 channels
|
|
Support for T1/E1 voice/WAN interface card (VWIC)
|
24 channels*
|
|
Transcoding (g711 to g729)
|
2 channels
|
|
Conferencing**
|
16 channels
|
* Total DSP resources will depend upon the number of channels provisioned in the T1.
** Conferencing always uses up an entire DSP. The rest of the features can share a DSP. The number of sessions available will vary depending upon the codec used in a conference call.
Tables 9 and 10 list maximum sessions for either ad hoc conferencing or meet-me conferencing. DSP resources allocated for conferencing can be shared by both features, and a mix of these can be configured. Below are a few examples based on Table 9. The concept of sharing conferencing resources applies to Table 10 as well.
Ad hoc 24x8 Meet-me 0x0
Ad hoc 12x8 Meet-me 12x8
Ad hoc 24x4 Meet-me 6x16
The above examples indicate Sessions x participant.
The Transcoding column lists the maximum transcoding sessions that the system can be configured for, for a given configuration of DSP. For example, the first row in Table 9 indicates that a maximum of three transcoding sessions are available if three DSPs are allocated for conferencing.
If more transcoding sessions are required, DSP resources will need to be diverted from conferencing to transcoding. For example, in the second row of Table 9, one of the DSPs is dedicated to transcoding, leaving two DSPs for conferencing. Notice the increase in the number of transcoding sessions and the drop in the number of conferencing sessions.
Table 9. DSP Resources: Scenario 1
|
UC 500 Model
|
Additional Voice Card (VIC)
|
SIP Trunk Preferred Codec
|
Ad-hoc Conference (Sessions x Participants)
|
Meet-me Conference (Sessions x Participants)
|
Comments
|
Transcoding
|
|
UC 540
|
None
|
No SIP Trunk or G.711
|
Up to a maximum of 24x8 or 48x4
|
Up to a maximum of 24x8 or 12x16 or 6x32
|
1 DSP for supporting voice ports and Transcoding sessions
Remaining 3 DSPs used for Conferencing
|
A maximum of 3 Transcoding sessions for this configuration
|
|
G.729
Transcoding sessions recommended
|
Up to a maximum of 4x8 or 8x4
|
Up to a maximum of 4x8 or 2x16 or 1x32
|
1 DSP for supporting voice ports and Transcoding sessions
1 DSP reserved for transcoding
Remaining 2 DSPs used for Conferencing
|
A maximum of 11 Transcoding sessions for this configuration
|
|
2FXS
2FXS/DID
2FXO
|
No SIP Trunk or G.711
|
Up to a maximum of 24x8 or 48x4
|
Up to a maximum of 24x8 or 12x16 or 6x32
|
1 DSP for supporting voice ports and Transcoding sessions
Remaining 3 DSPs used for Conferencing
|
A maximum of 2 Transcoding sessions for this configuration
|
|
G.729
Transcoding sessions recommended
|
Up to a maximum of 4x8 or 8x4
|
Up to a maximum of 4x8 or 2x16 or 1x32
|
1 DSP for supporting voice ports and Transcoding sessions
1 DSP reserved for transcoding
Remaining 2 DSPs used for Conferencing
|
A maximum of 10 Transcoding sessions for this configuration
|
|
4FXS
4FXS/DID
4FXO
2BRI NT/TE
|
No SIP Trunk or G.711
|
Up to a maximum of 24x8 or 48x4
|
Up to a maximum of 24x8 or 12x16 or 6x32
|
1 DSP for supporting voice ports and Transcoding sessions
Remaining 3 DSPs used for Conferencing
|
A maximum of 1 Transcoding sessions for this configuration
|
|
G.729
Transcoding sessions recommended
|
Up to a maximum of 4x8 or 8x4
|
Up to a maximum of 4x8 or 2x16 or 1x32
|
1 DSP for supporting voice ports and Transcoding sessions
1 DSP reserved for transcoding
Remaining 2 DSPs used for Conferencing
|
A maximum of 9 Transcoding sessions for this configuration
|
Table 10. DSP Resources: Scenario 2
|
UC 500 Model
|
Additional Voice Card (VIC)
|
SIP Trunk Preferred Codec
|
Ad-hoc Conference (Sessions x Participants)
|
Meet-me Conference (Sessions x Participants)
|
Comments
|
Transcoding
|
|
UC 540
|
1MFT T1/E1
No. of Ch 6
|
No SIP Trunk of G.711
|
Up to a maximum of 24x8 or 48x4
|
Up to a maximum of 24x8 or 12x16 or 6x32
|
1 DSP for supporting voice ports fractional T1/E1 and Transcoding sessions
Remaining 3 DSPs used for Conferencing
|
0 session for 6 ch
1 session for 4 ch
2 sessions for 2 ch
|
|
G.729
Transcoding sessions recommended
|
Up to a maximum of 4x8 or 8x4
|
Up to a maximum of 4x8 or 2x16 or 1x32
|
1 DSP for supporting voice ports fractional T1/E1 and Transcoding sessions
1 DSP reserved for transcoding
Remaining 2 DSPs used for Conferencing
|
8 session for 6 ch
9 session for 4 ch
10 sessions for 2 ch
|
|
1MFT T1/E1
6 No. of Ch 22
|
No SIP Trunk or G.711
|
Up to a maximum of 16x8 or 32x4
|
Up to a maximum of 16x8 or 8x16 or 4x32
|
2 DSP for supporting voice ports and Transcoding sessions
Remaining 2 DSPs used for Conferencing
|
0 session for 22 ch
1 session for 20 ch
2 sessions for 18 ch
And so on...
|
|
G.729
Transcoding sessions recommended
|
Up to a maximum of 2x8 or 4x4
|
Up to a maximum of 2x8 or 1x16
|
2 DSP for supporting voice ports and Transcoding sessions
1 DSP reserved for transcoding
Remaining 1 DSPs used for Conferencing
|
8 session for 22 ch
9 session for 20 ch
10 sessions for 18 ch
And so on...
|
|
1MFT Full T1
|
No SIP Trunk or G.711
|
Up to a maximum of 8x8 or 16x4
|
Up to a maximum of 8x8 or 4x16 or 1x32
|
3 DSP for supporting voice ports and Transcoding sessions
Remaining 1 DSPs used for Conferencing
|
A maximum of 7 Transcoding sessions, disable Conferencing for more transcoding
|
|
G.729
Transcoding sessions recommended
|
Up to a maximum of 2x8 or 4x4
|
Up to a maximum of 2x8 or 1x16
|
3 DSP for supporting voice ports and Transcoding sessions
0 DSP reserved for transcoding
Remaining 1 DSPs used for Conferencing
|
A maximum of 7 Transcoding sessions, disable Conferencing for more transcoding
|
|
1MFT Full T1
|
No SIP Trunk or G.711
|
Up to a maximum of 8x8 or 16x4
|
Up to a maximum of 8x8 or 4x16 or 1x32
|
3 DSP for supporting voice ports and Transcoding sessions
Remaining 1 DSPs used for Conferencing
|
A maximum of 4 Transcoding sessions, disable Conferencing for more transcoding
|
|
G.729
Transcoding sessions recommended
|
Up to a maximum of 2x8 or 4x4
|
Up to a maximum of 2x8 or 1x16
|
3 DSP for supporting voice ports and Transcoding sessions
0 DSP reserved for transcoding
Remaining 1 DSPs used for Conferencing
|
A maximum of 4 Transcoding sessions, disable Conferencing for more transcoding
|
Localization
Cisco UC 500 series is enabled with localization for IP Phones, Voicemail and Dial Plan. Table 11 summarizes the localization support on the platform.
Table 11. Localization support on UC 500 Series
Hardware Specifications
The hardware specifications for the Cisco UC 540 include physical specifications, environmental specifications, power specifications, and regulatory compliance. Table 12 lists the physical specifications. Table 13 lists the power requirements for the platform. Table 14 provides the environmental specifications, and Table 15 shows the compliance information.
Table 12. Physical Specifications for the Cisco UC 540
|
Feature
|
Description
|
|
Packaging type
|
Desktop form factor (1.5 Rack unit high)
|
|
Console port (upto115.2 kbps)
|
1
|
|
Auxiliary port*
|
1
|
* The auxiliary port on the Cisco UC 540 is the same as the console port. The port has an ability to auto-detect modem tones and switch over to the auxiliary port functionality.
Table 13. Power Specifications for the Cisco UC 540
|
Feature
|
Description
|
|
AC input voltage
|
100 to 240V AC
|
|
AC input frequency
|
50 to 60 Hz
|
|
AC input current
|
4 to 2A (100 to 240V)
|
|
AC input surge current
|
50 to 100A (100 to 240V)
|
|
Maximum inline power distribution
|
82W
|
|
Power dissipation (AC without IP phone)
|
80W
90W (including external adapter)
|
|
Power dissipation (AC with IP phone)
|
175W
180W (including external adapter)
|
Table 14. Environmental Specifications for the Cisco UC 540
|
Feature
|
Description
|
|
Operating temperature
|
32o to 104oF
|
|
Operating humidity
|
10% to 85% noncondensing, operating
5% to 95% noncondensing, nonoperating
|
|
Nonoperating temperature
|
4 o to 149oF (-20o to 65oC)
|
|
Operation altitude
|
104oF (40oC) at sea level
87.8oF (31oC) at 6000 ft (1800 m)
77oF (25oC) at 10,000 ft (3000 m)
34.7oF (1.5oC) per 1000 ft
|
|
Dimension
(H x W x D)
|
2.625 x 10.5 x 11.05 in.
(6.67 x 26.67 x 28.07 cm)
|
|
Power supply dimensions
(H x W x D)
|
1.7 x 4 x 7.5 in.
(4.3 x 10.16 x 19.05 cm)
|
|
Rack height
|
1.5 rack unit (RU)
|
|
Weight (fully configured)
|
8 lb (3.63 kg)
|
|
Power supply weight
|
3 lb (1.36 kg)
|
|
Noise level (minimum and maximum)
|
Normal operating temperature:
< 78F (25.6C): 34 dBA
> 78F (25.6C) through < 104F (40C): 37 dBA
> 104F (40C): 42 dBA
|
Table 15. Regulatory Compliance for the Cisco UC 540
|
Category
|
Compliance
|
|
Safety
|
IEC 60950-1
AS/NZS 60950.1
CAN/CSA-C22.2 No. 60950-1
EN 60950-1
UL 60950-1
|
|
Immunity
|
EN 55024
EN 300-386
EN 61000-6-2
EN 50082-1
EN 55024 (CISPR 24)
|
|
Electromagnetic compatibility (EMC)
|
FCC Part 15, ICES-003
EN55022, CISPR 22
AS/NZS
CNS13438
VCCI V-3
EN 55024
EN 300-386
EN 61000-3-2
EN 61000-3-3
EN 50082-1
EN 55024 (CISPR 24)
EN 61000-4-2
EN 61000-4-3
EN 61000-4-4
EN 61000-4-5
EN 61000-4-6
EN 61000-4-8
EN 61000-4-11
EN 61000-6-2
|
|
Telecommunications
|
FXS/DID
TIA-968-A3
CS-03 Part I
ACIF S002
ACIF S003
ANZ PTC200
ISDN BRI S/T (voice and data BC)
TIA-968-A3
CS-03 Part VI
TBR3
ACIF S031
ANZ PTC200
MPMHAPT Japan Digital
FXO
TIA-968-A3
CS-03 Part I
TBR21
MPMHAPT Japan Analog
ACIF S002
ACIF S003
ACIF S004
ANZ PTC200
MOH interface
ACIF S038
ACIF S004
TIA-464C
|
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