Emerson Network Power MTC600-ACNR16S1J Microtca Datasheet

Embedded Power for
Business-Critical Continuity
SXX06E
Rev. 08.01.06
Page 1 of 2
Rev. 05.26.08
MTC600 Series
1 of 19
MicroTCA
MTC600 Series
600 Watts
Total Power:
# of Channels:
600 Watts
16
Product Description
General
Special Features
• 600 W output power
• 16 Channels of
• 12 V @ 7.6 A max
• 3.3 V @ 150 mA max
• Supports:
• 12x AMC's
• 2x MCH's
• 2x CU's
• Supports N+1 output
redundancy, N≤3
• Supports 1+1 input
redundancy
Compliance
• PICMG MicroTCA.0
(Revision 1.0)
• PICMG HPM.1 Firmware
Upgrade (Revision 1.0)
Safety
UL, cUL 60950-1
CSA
60950-1
VDE
60950-1
The MTC600 series of Power Modules are designed for use in MicroTCA
systems and can support shelves, cube and other implementations and
is compliant to PICMG MicroTCA .0 Revision 1.0 specification.
The MTC600 Power Modules implement the functionality necessary to
power, manage and protect a MicroTCA system comprising up to:
• 12x AdvancedMCs
• 2x MicroTCA Carrier Hubs
• 2x Cooling Units
The MTC600 Power Modules will:
• On system bring-up, provide the power necessary for MCH and CU
system elements.
• Support redundant IPMI (IPMB-0) communication with the MCH/
Carrier-Manager
• Under the command of the carrier manager, enable and provide
power to AMCs, CUs and additional MCHs
• Monitor and Report power system status and conditions of
operation
• Manage and isolate faults affecting the power system
Embedded Power for
Business-Critical Continuity
Rev. 05.26.08
MTC600 Series
2 of 19
Product Description (continued)
Input
Power Module
Input Connector
Power Module
Input Connector
-48V_A
-48V_B
Fusing
ORing
EMI Filtering
Filtering
EMI
Transient Suppression
Suppression
Transient
Inrush Limiting
Inrush Limiting
Holdup
Holdup
Monitoring
&
Control
Power Conversion
12V
3.3V
MCHMCH
(2X) Power
Channel
Power
CU
CU(2x)
Power
PowerChannel
AMC
AMC(12x)
Power
PowerChannel
PWR
PWRON
PWR MP
MP EN#
EN# PS1#
PS1# PWRON
PWR
PWR MP
MP EN#
EN# PS1#
PS1#
PWR MP
MP EN#
EN# PS1#
PS1#
PWR
Power Module Output Connector
IPMB-0
IPMB
-0
PM
PMtotoPM
Comm
Comm
JTAG
JTAG
Embedded Power for
Business-Critical Continuity
Rev. 05.26.08
MTC600 Series
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Electrical Specifications
Input
-48 Vdc Models
Input Range (Operating)
Input Range (Non-operating)
-39.5 to -72 Vdc
0 to -39.5 Vdc
-72 to -75 Vdc
Supports -48 V and -60 V battery plants
Power Module may or may not operate in part
of this range, but will not be damaged
Input Fusing
Internal 24 A Fuses
In both A & B feeds and A & B return lines
Input ORing
Internal
In both A & B feeds and A & B return lines
Inrush Current
≤80 A
For t < 1 ms
Input Current
12.8 A
18.2 A
Typical with 600 W out, -54.0 Vin
Maximum with 600 W out, -39.5 Vin
Holdup Time
5 ms
7 ms
10 ms
10 ms
Minimum at 600 W with one PM
Typical at 600 W with one PM
Typical at 400 W with one PM
Minimum at 600 W with two PMs
UnderVoltage Lockout
Reverse Polarity Protection
39.5 ±1.0 V
37.0 ±1.0 V
Included
Turn-On voltage
Turn-Off voltage
Protected against reverse polarity over
magnitude of specified input range
AC Models
Input Range (Operating)
90 to 264 Vac
Supports typical worldwide single-phase inputs
Input Range (Non-operating)
0 to 90 Vac
264 to 282 Vac
Power Module may or may not be operating in
part of this range, but will not be damaged
Frequency
Input Fusing
Inrush Current
Power Factor
Harmonics
47 to 63 Hz
Internal 15 A Fuses
≤45 A
0.99 typical
I2t integral compatible with 15 A fast-blow fuse
Meets EN61000-3-2
<2.30 Arms (odd)
<1.08 Arms (even)
Input Current
2.95 A
6.6 A
Holdup Time
16.7 ms
20 ms
UnderVoltage Lockout
87 ± 2.5 V
83 ± 2.5 V
OverVoltage Lockout
282 Vac
Typical with 600 W out, 230 Vac
Maximum with 600 W out, 110 Vac
At 110 Vac, 60 Hz
At 230 Vac, 50 Hz
Turn-On voltage
Turn-off voltage
Power Module will turn-off if input voltage
exceeds this voltage and not turn on
until input voltage is reduced below this level
Embedded Power for
Business-Critical Continuity
Rev. 05.26.08
MTC600 Series
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Electrical Specifications (continued)
Output - All Models (continued)
12 V Outputs (Payload Power)1,2
Management Power Interdependence
Setpoint
Total Regulation Range
Rated Load
Minimum Load
Output Rise TIme (per channel)
Output Noise (PARD)3
Output Voltage Overshoot
Transient Response
12 V will not be applied without
3.3 V applied to a load
Removal of 3.3 V also removes 12 V
and de-asserts ENABLE#
12.6 Vdc typical
11.8 Vdc typical
Configured as Primary PM
Configured as Redundant PM
12.25 to 12.95 Vdc
11.60 to 12.00 Vdc
Configured as Rrimary PM
Configured as Redundant PM
600 W maximum
80 W / 7.6 A maximum
Per Power Module, input voltage ≥110 Vac
Per load channel
No load
No loss of regulation ≥110 Vrms
25 ms maximum
With 1600 μF on output under test
75 mV maximum
100 mV maximum
0 to 30 MHz
0 to 100 MHz
2% maximum
3% maximum deviation
2 ms recovery time
Referenced to setpoint
2 A loadstep @ 1 A/μs
Referenced to load current and setpoint at
onset of transient. Recovery time to within 1%
of setpoint at onset of transient
Voltage Sag
1.00 V maximum
Primary PM to redundant PM transition with
maximum of 80 W load per output or 600 W
load per PM
Short Circuit Protection
9.7 A maximum
10 ms maximum
Output to return
Channel Fault Operation
(Output to Return)
12V Payload Power Output under fault is
shutdown. 3V3 MP on the same channel
is not affected. The other channels are not
affected
Channel Fault Operation
(Output to Output)
No damage to Power Module
PS1# Extraction Delay
Reflected Ripple Tolerance on
Cooling Unit Outputs4
After removal of fault, the output channel is
available again under control of the Carrier
Manager. PM_OK# is not de-asserted and
redundant failover is not initiated
Either or both outputs may
shut down until fault is removed
100 μs maximum
Time from de-assertion of PS1# to disabling of
the channel outputs and de-assertion of the
ENABLE# signal
100 mV pk-pk
0.8 A pk-pk
Tolerance of Power Module to ripple generated
by fans or motors connected to Payload Power
on Cooling Units
Note 1: All channels and outputs must be configued by the carrier manager with the exception of MCH and CU channels and outputs
which are configured during Startup and/or autonomous operation,
Note 2: All measurements are made at the output connector of the Power Module. Unless otherwise specified,specs apply to all AMC,
MCH, and CU outputs.
Note 3: Measured with a 0.1 μF ceramic and 10 μF tantalum capacitor on any output and oscilloscope bandwidth set for 200 MHz.
Note 4: Consult with the factory if other outputs are expected to product significant ripple current.
Embedded Power for
Business-Critical Continuity
Electrical Specifications (continued)
Rev. 05.26.08
MTC600 Series
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Output - All Models (continued)
3.3 V Outputs (Management Power) 5,6
Payload Power Interdependence
Setpoint
Total Regulation Range
Rated Load
Minimum Load
3.3 V must be applied before 12 V
Removal of 3.3 V also removes 12 V
and de-asserts ENABLE#
3.3 Vdc typical
3.16 to 3.63 Vdc
8 W maximum
0.5 W / 150 mA maximum
No load
Per Power Module
Per load channel
No loss of regulation
Output Rise TIme (per channel)
25 ms maximum
With 150 μF on output under test
Output Noise (PARD)3
50 mV maximum
75 mV maximum
0 to 30 MHz
0 to 100 MHz
Output Voltage Overshoot
Transient Response
2% maximum
Referenced to setpoint
3% maximum deviation
2 ms recovery time
37.5 mA loadstep @ 1 A/μs
Referenced to load current and setpoint at
onset of transient. Recovery time to within 1%
of setpoint at onset of transient
Voltage Sag
150 mV maximum
Primary PM to redundant PM transition with
max of 80 W load per output or 600 W load per
PM
Short Circuit Protection
225 mA maximum
12 ms maximum
Output to return
Channel Fault Operation
(Output to Return)
Output channel under fault is shutdown.
Both 3.3V and 12V are removed and
ENABLE# is de-asserted. The other channels
are not affected
Channel Fault Operation
(Output to Output)
No damage to Power Module
PS1# Extraction Delay
100 μs maximum
After removal of fault, the output channel is
available again under control of the Carrier
Manager. PM_OK# is not de-asserted and
redundant failover is not initiated
Either or both channels may
shut down until fault is removed
Time from de-assertion of PS1# to disabling of
the channel outputs and de-assertion of the
ENABLE# signal
Note 5: All channels and outputs must be configued by the carrier manager with the exception of MCH and CU channels and outputs
which are configured during Startup and/or autonomous operation.
Note 6: All measurements are made at the output connector of the Power Module. Unless otherwise specified,specs apply to all AMC,
MCH, and CU outputs.
Embedded Power for
Business-Critical Continuity
Electrical Specifications (continued)
Rev. 05.26.08
MTC600 Series
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Output - All Models (continued)
General
Turn-on Time
4 seconds maximum
After power-on of the PM, the time for
autonomous outputs to reach regulation band
Early Power
Supported
PM supports Early Power requirements referenced in MicroTCA.0 Rev 1.0 Section 4.4.11.1
Normal Power
Supported
PM supports Normal Power requirements referenced in MicroTCA.0 Rev 1.0 Section 4.4.11.2
Autonomous Operation
Supported
PM supports Autonomous Operation requirements referenced in MicroTCA.0 Rev 1.0
Section 4.4.11.3
Supported
[GA2,GA1,GA0] = 101, or
[GA2,GA1,GA0] = 110
LED1 displays yellow
In Diagnostic Mode PM disables the IPMI controls and slots are powered up based only on
PSI# signals
Diagnostic Mode
Redundancy7
Hot-Swap Operation
(controlled)
Supported
Removal or addition of a PM will not cause a
fault or out-of-regulation condition
Hot-Swap Operation
(uncontrolled)
Supported
Removal or addition of a PM will not cause a
fault or out-of-regulation condition
Power Module Failover
Supported
When configured as a redundant PM, the PM
is capable of accepting the load of a failed PM
within specified voltage magnitude and timing
parameters
Fault Isolation
Supported
A fault in one PM will not cause the
shutdown of another PM
Note 7: All specifications in the redundancy sub-section assume the system is populated with Power Modules with the same
manufacturer's model numbers or otherwise compatible Power Modules. At the time of print, PICMG does not have a formal
methodology for verifying compatibility.
Embedded Power for
Business-Critical Continuity
Rev. 05.26.08
MTC600 Series
7 of 19
Electrical Specifications (continued)
Input Signals - All models
Geographic Address: GA0, GA1, GA2
Internal pull ups to 3.3 V. Source current limited by 11 Kohm (300 μA with GAx at 0.0 V)
MIN
Logic Level Low - VIL
Logic Level High- VIH
MAX
0.5 V
1.63 V
PS1_[SLOT]#: PS1_M1, PS1_M2, PS1_CU1, PS1_CU2, PS1_1, ...PS_12
Internal pull ups to 3.3 V. Source current limited by 10 Kohm (330 uA with PS1_[SLOT]# at 0.0 V)
MIN
Logic Level Low Voltage - VIL
Logic Level High Voltage - VIH
MAX
1.1 V
2.6 V
PWRON_[MCH]: PWRON_MI, PWRON_M2
Internal 10 Kohm pull down. Compatible with MicroTCA.0 R1.0 Section A.5.4
MIN
Logic Level Low - VIL
Logic Level High - VIH
MAX
0.5 V
1.63 V
RST_PM_IN#: RST_PM_IN#
MIN
Logic Level Low - VIL
Logic Level High - VIH
MAX
0.6 V
2.4 V
PMP_[x]#: PMP_A#, PMP_B#, PMP_C#
Internal pull up to 3.3 V. Source current limited by 10 Kohm (330 uA with PMP_[x]# at 0.0 V)
MIN
Logic Level Low Voltage - VIL
Logic Level High Voltage - VIH
MAX
0.5 V
1.63 V
PS_PM#: PS_PM#
Internal pull up to 3.3 V. Source current limited by 10 Kohm
MIN
Logic Level Low Voltage - VIL
Logic Level High Voltage - VIH
MAX
0.6 V
2.4 V
Embedded Power for
Business-Critical Continuity
Rev. 05.26.08
MTC600 Series
8 of 19
Electrical Specifications (continued)
Output Signals - All Models
EN1_[SLOT]#: EN1_M1, EN1_M2, EN1_CU1, EN1_CU2, EN1_1, EN1_2...EN1_12
Open collector output. Isink, max=10 mA. No internal current limit
MIN
MAX
Logic Level Low Voltage - VOL
0.8 V
Voltage Withstand - Vmax
5.5 V
PM_OK#: PM_OK#
Open collector output, Isink max = 10 mA. No current limit
MIN
MAX
Logic Level Low Voltage - VOL
0.8 V
Voltage Withstand - Vmax
5.5 V
RST_PM_[x]#: RST_PM_A#,RST_PM_B#,RST_PM_C#
Open collector output, Isink, max = 10 mA. No current limit
MIN
MAX
Logic Level Low Voltage, - VOL
0.8 V
Voltage Withstand - Vmax
5.5 V
Shared Signals - All Models
SMP: SMP
Compliant to MicroTCA.0 R1.0 Section 4.6.5.4.3, requirements 4.221-4.225
Voltage Range
MIN
MAX
4.5 V
6V
Isink
750 mA
Isource
350 mA
Embedded Power for
Business-Critical Continuity
Rev. 05.26.08
MTC600 Series
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Electrical Specifications (continued)
I2C Interface - All Models
Operating Parameters
I2C Operating Voltage
I2C Operating Frequency
3.3 V
Nominal
100 kHz
SDA_[x]: SDA_A, SDA_B
Internal pull ups to 3.3 V. Source current limited by 10 Kohm (330 μA with SDA_[x] at 0.0 V). Bufferede to support hot-swap
MIN
Logic Level Low - VIL
Logic Level High - VIH
MAX
0.7 V
2.70 V
SCL_[x]: SCL_A, SCL_B
Internal pull ups to 3.3 V. Source current limited by 10 Kohm (330 uA with SCL_[x] at 0.0 V). Buffered to support hot-swap.
MIN
Logic Level Low Voltage - VIL
Logic Level High Voltage - VIH
MAX
0.7 V
2.70 V
Embedded Power for
Business-Critical Continuity
Rev. 05.26.08
MTC600 Series
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IPMB-0 Interface
PM-EMMC
Functionality
A PM-EMMC is implemented per MicroTCA.0 R1.0 requirements 4.116 through 4.120
IPM Device
IPMB Interface
PM-EMMC aggregates IPMB-A and IPMB-B IPMI v1.5 protocol
SDR Repository
Sensors
Implements mandatory 2 temp sensors; Implements voltage and current senors
Watchdog Timer
Implements a watchdog timer for resetting PM's own PM-EMMC
FRU Inventory
Initialization Agent
PM-EMMC is responsible for initializing it's own event generation and sensors
Internal Event Generation
External Event Generation
Events sent over IPMB-0
Power Channel Mapping
Power Channel
Management
Power
Payload Power
PS1#
ENABLE#
Autonomous Power
1, 2
MP_M1, MP_M2
PP_M1, PP_M2
PS1_M1#, PS1_M2#
EN_M1#, EN_M2#
Depends on PWRON_
M1, PWRON_M2
3, 4
MP_CU1, MP_CU2
PP_CU1, PP_CU2
PS1_CU1#, PS1_CU2#
EN_CU1#, EN_CU2#
Yes
5-16
MP_1 - MP_12
PP_1 - PP_12
PS1_# - PS1-12#
EN_1# - EN_12#
No
Supported Commands
Global Commands
NetFN App Request=06h; Response=07h
Command
CMD
Note
Get Device ID
01h
As defined in IPMI v1.5; Broadcast Get Device ID not supported
Cold Reset
02h
As defined in IPMI v1.5
Command
CMD
Note
Set Event Receiver
00h
As defined in IPMI v1.5
Get Event Receiver
01h
As defined in IPMI v1.5
Platform Event
02h
As defined in IPMI v1.5
Event Commands
NetFN S/E Request=04h; Response=05h
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Business-Critical Continuity
Rev. 05.26.08
MTC600 Series
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IPMB-0 Interface (continued)
Supported Commands (Continued)
Sensor Device Commands
NetFN S/E Request=04h; Response=05h
Command
CMD
Note
Get Device SDR Info
20h
As defined in IPMI v1.5
Get Device SDR
21h
As defined in IPMI v1.5
Reserve Device SDR Repository
22h
As defined in IPMI v1.5
Set Sensor Hysteresis
24h
As defined in IPMI v1.5
Get Sensor Hysteresis
25h
As defined in IPMI v1.5
Set Sensor Threshold
26h
As defined in IPMI v1.5
Get Sensor Threshold
27h
As defined in IPMI v1.5
Get Sensor Reading
2Dh
As defined in IPMI v1.5
Command
CMD
Note
Get FRU Inventory Area Info
10h
As defined in IPMI v1.5
Read FRU Data
11h
As defined in IPMI v1.5
Write FRU Data
12h
As defined in IPMI v1.5
CMD
Note
FRU Device Commands
NetFN Storage Request=0Ah; Response=0Bh
PICMG Commands
NetFN Storage Request=2Ch; Response=2Dh
Command
Get PICMG Properties
00h
As defined in MicroTCA.0 R1.0
Get FRU LED Properties
05h
As defined in PICMG3.0 R2.0 (ATCA)
Get LED Color Capabilities
06h
As defined in PICMG3.0 R2.0 (ATCA)
Set FRU LED State
07h
As defined in PICMG3.0 R2.0 (ATCA)
Get FRU LED State
08h
As defined in PICMG3.0 R2.0 (ATCA)
Set IPMB State
09h
As defined in PICMG3.0 R2.0 (ATCA)
Get Device Locator Reader ID
0Dh
As defined in PICMG3.0 R2.0 (ATCA)
Get IPMB Link Info
18h
As defined in PICMG3.0 R2.0 (ATCA)
Command
CMD
Note
Power Channel Control
24h
As defined in MicroTCA.0.0 R1.0
Get Power Channel Status
25h
As defined in MicroTCA.0.0 R1.0
PM Reset
26h
As defined in MicroTCA.0.0 R1.0
Get PM Status
27h
As defined in MicroTCA.0.0 R1.0
PM Heartbeat
28h
As defined in MicroTCA.0.0 R1.0
MicroTCA Commands
NetFN PICGMG Request=2Ch; Reponse=2Dh
Embedded Power for
Business-Critical Continuity
Rev. 05.26.08
MTC600 Series
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IPMB-0 Interface (continued)
Sensors - Mandatory per PICMG and Related Standards
Event and Status Sensors
These sensors are implemented according to the requirements and specifications of the relevant standards.
Sensor Name
Sensor Number
Management Controller Device Locator
00h
Power Channel Notification
01h
PM Status
02h
IPMB Physical Link
03h
Hot Swap
04h
Temperature Sensors
All temperature sensors have an accuracy of 5%.
All temperature sensors have an offset of -40 °C.
Sensor Name
Sensor Number
Resolution
Applicable Models
Hotspot Temperature
05h
1 °C / bit
All
Ambient Temperature
06h
1 °C / bit
All
Assertion/Deassertion
Comparison Returned
Settable/Readable
Upper Non-Recoverable
Yes
Yes
R
Upper Critical
Yes
Yes
S/R
Upper Non-Critical
Yes
Yes
S/R
Lower Critical
Yes
Yes
S/R
Lower Non-Critical
Yes
Yes
S/R
Sensor Number
Resolution
Applicable Models
12 Volt
07h
100 mV / bit
All
3V3 Volt
08h
50 mV / bit
All
5 V Volt
09h
50 mV / bit
All
Assertion/Deassertion
Comparison Returned
Settable/Readable
Upper Critical
Yes
Yes
S/R
Lower Critical
Yes
Yes
S/R
Sensor Number
Resolution
Applicable Models
12 V Current
0Ah
0.5 A / bit
All
3V3 Volt
0Bh
50 mA / bit
All
Assertion/Deassertion
Comparison Returned
Settable/Readable
Yes
Yes
S/R
Thresholds
Sensors - Non-Mandatory per PICMG and Related Standards
Internal Voltage Sensors
All voltage sensors have an accuracy of 2%.
Sensor Name
Thresholds
Internal Current Sensors
All current sensors have an accuracy of 2%.
Sensor Name
Thresholds
Upper Critical
Embedded Power for
Business-Critical Continuity
Rev. 05.26.08
MTC600 Series
13 of 19
IPMB-0 Interface (continued)
Sensors - Non-Mandatory per PICMG and Related Standards (continued)
Input Voltage Sensors
All voltage sensors have an accuracy of 2%.
Sensor Name
Sensor Number
Resolution
Applicable Models
AC Input Voltage
0Ch
2.0 V / bit
MTC600-AC only
DC Input Votlage A
0Ch
0.5 V / bit
MTC600-48 only
DC Input Voltage B
0Dh
0.5 V / bit
MTC600-48 only
DC Input Or-ed
0Eh
0.5 V / bit
MTC600-48 only
Assertion/Deassertion
Comparison Returned
Settable/Readable
Upper Critical
Yes
Yes
S/R
Lower Critical
Yes
Yes
S/R
Lower Non-Recoverable
Yes
Yes
R
Sensor Number
Resolution
Applicable Models
AC Input Current
0Dh
100 mA / bit
MTC600-AC only
DC Input Current
0Fh
100 mA / bit
MTC600-48 only
Assertion/Deassertion
Comparison Returned
Settable/Readable
n/a
n/a
n/a
Thresholds
Input Current Sensors
All current sensors have an accuracy of 2%.
Sensor Name
Thresholds
No thresholds implemented
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Business-Critical Continuity
Rev. 05.26.08
MTC600 Series
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Environmental Specifications
Temperature and Altitude Derating8
60 m below to 1800 m above sea level
Condition
Temperature
Load
-45 ˚C to +70 ˚C
-
Cold Start
-20 ˚C to -5 ˚C
Any valid condition
Normal Operation
-5 ˚C to 45 ˚C
100%
Short Term Operation9
45 ˚C to 55 ˚C
Linear derating to 80% at 55 ˚C
Temperature
Load
-45 ˚C to +70 ˚C
-
Cold Start
-20 ˚C to -5 ˚C
Any valid condition
Normal Operation
-5 ˚C to 35 ˚C
35 ˚C to 45 ˚C
100%
System dependent
Short Term Operation9
45 ˚C to 55 ˚C
System dependent
Storage Non-Operating
1800 m to 4000 m above sea level
Condition
Storage Non-Operating
Other Environmental
Criteria
Specification
Reference
5% - 95%, non-condensing
GR-63-CORE, R4-7; IEC 60068-2-56, 2-30
0.1 g @ 5-100 Hz and back to 5 Hz at a rate
of 0.1 octave/min or
1.5 g @ 100-500 Hz with 0.25 octave/min;
1.5 mm @ 2-9 Hz, 0.5 g @ 9-200 Hz
GR-63-CORE, R4-58, R4-59;
IEC 60068-2-6, 2-36
Shock
4 g @ 22 ms
IEC 60068-2-27, 2-29
Drop
Packaged: 450 mm drop height;
Unpackaged: 25 mm drop height;
Transportation: 1.2 m free fall
GR-63-CORE, R4-8, R4-9
IEC 60068-2-32
Relative Hunidity
Vibration
Fire Resistance
All material UL 94V-1 or better
Standards Compliance for Telecommunications Applications
The Power Module will not hinder system compliance to the following environmental specifications:
•
•
•
•
•
•
Telcordia GR-63-CORE
Telcordia GR-1089-CORE
NEBS Level 3, per SR-3580
ETS300 019-1-1, Part 1-1 (Class 1.2E equipment)
ETS300 019-1-2, Part 1-2 (Class 2.3 equipment)
ETS300 019-1-3, Part 1-3 (Class 3.2 equipment)
Note 8: 12 CFM airflow for -48 V model; 15 CFM airflow for AC model.
Note 9: Short Term Operation defined as total period of not more than 96 consecutive hours and total of not more than 15 days in 1
year.
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Business-Critical Continuity
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Electromagnetic Compatibility
All Models
Radiated Emissions
Standard
Limits & Test Parameters
EN55022, Class A
Per Section 6
GR-1089-CORE
Per Section 3.2
Frequency Range
Criteria
3 MHz to 1 GHz
N/A
10 KHz to 10 GHz
N/A
Conducted Emissions
EN55022, Class A
Per Section 6
150 KHz to 30 MHz
N/A
GR-1089-CORE
Per Section 3.2
10 KHz to 30 MHz
N/A
Impulsive
B
80 MHz to 1GHz
A
150 KHz to 80 MHz
A
-100% for 10 ms @ 0°;
-100% for 10 ms @ 180°;
-60% for 100 ms;
-30% for 500 ms;
-100% for 5 s
Impulsive
B,C
5/50 ns 5 KHz pulse
1 KV direct
Impulsive
B
1.2/50 μsec pulse
2 KV Line to Earth
1 KV Line to Line
Impulsive
B
5/50 ns 5 KHz pulse
500 V direct
Impulsive
B
1.2/50 μsec pulse
500 V Line to Earth
500 V Line to Line
Impulsive
B
ElectroStatic Discharge
EN61000-4-2
8 KV Contact, 15 KV Air discharge
Radiated Immunity
EN61000-4-3
10 V/m (level measure unmodulated) 80% AM, 1 KHZ
Conducted Immunity
EN61000-4-6
3 V (level measured unmodulated)
80% AM, 1HKz
Voltage Dips & Interruptions
EN61000-4-11
AC Models
Fast Transients
EN61000-4-4
Surge
EN61000-4-5
-48 Vdc Models
Fast Transients
EN61000-4-4
Surge
EN61000-4-5
Embedded Power for
Business-Critical Continuity
Rev. 05.26.08
MTC600 Series
16 of 19
Mechanical Specifications (continued)
Front Panel - MTC600-48
Front Panel - MTC600-AC
Input Connector:
Positronics QB7W2MN7T2,
FCI 10070158,
or equivalent
Input Connector:
IEC 320-C14,
or equivalent
Mating Connector:
Positronics QB7W2F00QH0/AA,
FCI 10070165,
or equivalent
Mating Connector:
IEC 320-C13,
or equivalent
Pinout:
P1: Return
P2: -48 V
1: Not Used
2: Not Used
Pinout:
L: Line
N: Neutral
G: Ground
Front Panel Drawing for DC-input unit
Front Panel Drawing for AC-input unit
Green/Red LED
-48_B
Blue LED
Green/Red LED
-48_A
General - MTC600-48
General - MTC600-AC
Weight: 25 oz. (700 grams) typical
Weight: 30 oz. (850 grams) typical
Blue LED
Embedded Power for
Business-Critical Continuity
Rev. 05.26.08
MTC600 Series
17 of 19
Mechanical Specifications (continued)
Output Connector
Pin Description
Output Connector:
EPT P/N 501-50096-183,
Tyco P/N 1469922-1,
or equivalent
Mating Connector:
EPT P/N 502-50096-183,
Tyco P/N 1469920-1,
or equivalent
Pinout
PP_x
Payload Power (12V) for AMC/MCH/CU x
MP_x
Mgmt Power (3.3V) for AMC/MCH/CU x
GND
Output Return
PS_PM#
Last Mate Pin
GAx
Geographical address line x
PM_OK#
PM Present and OK [Output]
PMP_x#
PM x Present and OK [Input]
RST_PM_IN#
Resets PM EMMC [Input]
RST_PM_x#
Reset signal from PM x [Output]
P1
PP_M1(2nd Mate)
PP_1(2nd Mate)
P13
PWR_ON_Mx
Power-On signal from MCH x
P2
PP_CU1(2nd Mate)
PP_2(2nd Mate)
P14
PS1_x#
Detects Presence of AMC/MCH/CU x
P3
PP_CU2(2nd Mate)
PP_3(2nd Mate)
P15
EN_x#
Enables (E)MMC of AMC/MCH/CU x
P4
GND(1st Mate)
PP_4(2nd Mate)
P16
SCL_x
I2C Clock Line for Bus x
P5
GND(1st Mate)
PP_5(2nd Mate)
P17
SDA_x
I2C Date Line for Bus x
P6
GND(1st Mate)
PP_6(2nd Mate)
P18
P7
GND(1st Mate)
PP_7(2nd Mate)
P19
P8
GND(1st Mate)
PP_8(2nd Mate)
P20
P9
GND(1st Mate)
PP_9(2nd Mate)
P21
P10
GND(1st Mate)
PP_10(2nd Mate)
P22
P11
GND(1st Mate)
PP_11(2nd Mate)
P23
P12
PP_M2(2nd Mate)
PP_12(2nd Mate)
P24
1
PS_PM#
(Last Mate)
PM_OK#
(3rd Mate)
PS1_M1#
(3rd Mate)
PS1_CU1#
(3rd Mate)
EN_M1#
(3rd Mate)
EN_CU1#
(3rd Mate)
MP_M1#
(3rd Mate)
MP_CU1#
(3rd Mate)
2
N/C
PMP_A#
(3rd Mate)
PS1_2#
(3rd Mate)
PS1_1#
(3rd Mate)
EN_2#
(3rd Mate)
EN_1#
(3rd Mate)
MP_2#
(3rd Mate)
MP_1#
(3rd Mate)
3
N/C
PMP_B#
(3rd Mate)
PS1_4#
(3rd Mate)
PS1_3#
(3rd Mate)
EN_4#
(3rd Mate)
EN_3#
(3rd Mate)
MP_4#
(3rd Mate)
MP_3#
(3rd Mate)
4
N/C
PMP_C#
(3rd Mate)
PS1_6#
(3rd Mate)
PS1_5#
(3rd Mate)
EN_6#
(3rd Mate)
EN_5#
(3rd Mate)
MP_6#
(3rd Mate)
MP_5#
(3rd Mate)
5
N/C
RST_PM_IN#
(3rd Mate)
PS1_8#
(3rd Mate)
PS1_7#
(3rd Mate)
EN_8#
(3rd Mate)
EN_7#
(3rd Mate)
MP_8#
(3rd Mate)
MP_7#
(3rd Mate)
6
N/C
RST_PM_A#
(3rd Mate)
PS1_10#
(3rd Mate)
PS1_9#
(3rd Mate)
EN_10#
(3rd Mate)
EN_9#
(3rd Mate)
MP_10#
(3rd Mate)
MP_9#
(3rd Mate)
7
GA0
(3rd Mate)
RST_PM_B#
(3rd Mate)
PS1_12#
(3rd Mate)
PS1_11#
(3rd Mate)
EN_12#
(3rd Mate)
EN_11#
(3rd Mate)
MP_12#
(3rd Mate)
MP_11#
(3rd Mate)
8
GA1
(3rd Mate)
RST_PM_C#
(3rd Mate)
PS1_M2#
(3rd Mate)
PS1_CU2#
(3rd Mate)
EN_M2#
(3rd Mate)
EN_CU2#
(3rd Mate)
MP_M2#
(3rd Mate)
MP_CU2#
(3rd Mate)
9
GA2
(3rd Mate)
SMP
(3rd Mate)
SCL_B
(3rd Mate)
SDA_B
(3rd Mate)
SCL_A
(3rd Mate)
SDA_A
(3rd Mate)
PWR_ON_M2
(3rd Mate)
PWR_ON_M2
(3rd Mate)
A
B
C
D
E
F
G
H
Embedded Power for
Business-Critical Continuity
Rev. 05.26.08
MTC600 Series
18 of 19
Mechanical Specifications
MTC600-48
7.37 (187.25)
0.18 (4.55)
2.89 (73.5)
0.63 (16)
15.24 (0.6)
15.24 (0.6)
MTC600-AC
7.37 (187.25)
2.89 (73.50)
3.22 (81.4)
2.34 (59.40)
Embedded Power for
Business-Critical Continuity
SXX06E
Ordering Information
Power Level
MTC
ppp 600 = 600 W
Input Voltage
vv
48 = -48 Vdc
AC = 90-264 Vac
Redundant
rr
RR = Redundant
Input and
Redundant
Output
NR = NonRedundant
Input and
Redundant
Output
Rev. 08.01.06
Page 1 of 2
Americas
Channel
Count
Width
nn
w
16 = 16ch
S = Single
Width
Height
h
9 = 9 HP
1 = 12 HP
MTC600-48RR16S9J
600 W, -48 Vin, Redundant I/P, Redundant O/P, 16 channel, SW 9 HP
MTC600-ACNR16S1J
600 W, AC-in, Non-Redundant I/P, Redundant O/P, 16 channel, SW 12 HP
Reserved
xx
For modified
standards
J
Rev. 05.26.08
MTC600 Series
19 of 19
5810 Van Allen Way
Carlsbad, CA 92008
USA
Telephone: +1 760 930 4600
Facsimile: +1 760 930 0698
Europe (UK)
Waterfront Business Park
Merry Hill, Dudley
West Midlands, DY5 1LX
United Kingdom
Telephone: +44 (0) 1384 842 211
Facsimile: +44 (0) 1384 843 355
Asia (HK)
16th - 17th Floors, Lu Plaza
2 Wing Yip Street, Kwun Tong
Kowloon, Hong Kong
Telephone: +852 2176 3333
Facsimile: +852 2176 3888
For global contact, visit:
www.astecpower.com
www.artesyn.com
[email protected]
[email protected]
While every precaution has been taken to ensure
accuracy and completeness in this literature, Emerson
Network Power assumes no responsibility, and disclaims
all liability for damages resulting from use of this
information or for any errors or omissions.
Printed in U.S.A.
Issue SF3
Emerson Network Power.
The global leader in enabling
business-critical continuity.
AC Power
Connectivity
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This is a Preliminary Datasheet. Emerson
Network Power reserves the right to make
changes to the information contained herein
without notice and assumes no liability as a
result of its use or application.
Emerson Network Power and the Emerson
Network Power logo are trademarks and
service marks of Emerson Electric Co.
©2006 Emerson Electric Co.
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