ETC MAPC-104-Y

PC/104-Plus Series
M E C H A N I C A L
4 6 W, T R I P L E O U T P U T D C / D C C O N V E RT E R
S P E C I F I C A T I O N S
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Case C46
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Dimensions are in inches (mm)
PIN 1
GROUND
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0.295
(7.49)
PIN 2
+5Vdc POWER OUT
0.025 (0.64)
SQUARE POSTS,
2 POSITIONS
0.10
(2.54)
0.10
(2.54)
0.718
(18.24)
0.10
(2.54)
5 Volt Auxiliary Power Connector, P2 (Optional)
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Table 1. MAPC-104 Input Power Header
IPH Mating Connector: Molex 5557 (39-01-4040)
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TOP VIEW
Pin
Assignment
Functional Description
1
OT_Warn Out
Overtemperature Warning
2
Pwr_LED_Drive Out
External Power Good LED Driver
3
VIN –
Input Ground
4
VIN +
Positive Input
2
PC/104-Plus Series
4 6 W, T R I P L E O U T P U T D C / D C C O N V E RT E R
Table 2. MAPC-104 (PC/104-plus)
plus) Bus Signal Assignments
plus
Table 3. MAPC-104 (PC/104-Reference) Bus Signal Assignments
J3/P3
J1/P1
Pin
A
B
C
D
Pin
A
B
1
GND ➁
Reserved
+5.1V
AD00
1
IOCHCK*
GND
2
VI/O
AD02
AD01
+5.1V
2
D7
RSTDRV
3
AD05
GND
AD04
AD03
3
D6
+5.1V
4
C/BE0*
AD07
GND
AD06
4
D5
IRQ9
5
GND
AD09
AD08
GND
5
D4
NA (–5V) ➂
6
AD11
VI/O
AD10
M66EN
7
AD14
AD13
GND
AD12
8
+3.3V
C/BE1*
AD15
+3.3V
Pin
D
C
9
SERR*
GND
SB0*
PAR
0
GND
GND
10
GND
PERR*
+3.3V
SDONE
1
MEMCS16*
SBHE*
11
STOP*
+3.3V
LOCK*
GND
2
IOCS16*
12
+3.3V
TRDY*
GND
DEVSEL*
3
IRQ10
13
FRAME*
GND
IRDY*
+3.3V
4
14
GND
AD16
+3.3V
C/BE2*
15
AD18
+3.3V
AD17
6
D3
DRQ2
7
D2
NA (–12V) ➂
8
D1
ENDXFR*
9
D0
+12V
10
IOCHRDY
KEY ➁
LA23
11
AEN
SMEMW*
LA22
12
A19
SMEMR*
IRQ11
LS21
13
A18
IOW*
5
IRQ12
LS20
14
A17
IOR*
GND
6
IRQ15
LS19
15
A16
DACK3*
J2/P2
16
AD21
AD20
GND
AD19
7
IRQ14
LA18
16
A15
DRQ3
17
+3.3V
AD23
AD22
+3.3V
8
DACK0*
LA17
17
A14
DACK1*
18
IDSEL0
GND
IDSEL1
IDSEL2
9
DRQ0
MEMR*
18
A13
DRQ1
19
AD24
C/BE3*
VI/O
IDSEL3
10
DACK5*
MEMW*
19
A12
REFRESH*
20
GND
AD26
AD25
GND
11
DRQ5
SD8
20
A11
SYSCLK
21
AD29
+5.1V
AD28
AD27
12
DACK6*
SD9
21
A10
IRQ7
22
+5.1V
AD30
GND
AD31
13
DRQ6
SD10
22
A9
IRQ6
23
REQ0*
GND
REQ1*
VI/O
14
DACK7*
SD11
23
A8
IRQ5
24
GND
REQ2*
+5.1V
GNT0*
15
DRQ7
SD12
24
A7
IRQ4
25
GNT1*
VI/O
GNT2*
GND
16
+5.1V
SD13
25
A6
IRQ3
26
+5.1V
CLK0
GND
CLK1
17
MASTER*
SD14
26
A5
DACK2*
27
CLK2
+5.1V
CLK3
GND
18
GND
SD15
27
A4
TC
28
GND
INTD*
+5.1V
RST*
19
GND
KEY ➁
28
A3
BALE
+5.1V
29
+12V
INTA*
INTB*
INTC*
29
A2
30
NA (–12V) ➂
Reserved
Reserved
3.3V KEY ➁
30
A1
OSC
31
A0
GND
32
GND
GND
➀ The shaded area denotes power or ground signals.
➁ The KEY pins are to guarantee proper module installation:
J3/P3, pin A1 is electrically connected to GND for shielding
J3/P3, pin D30 is removed and the female side is plugged for 3.3V I/O
J2/P2, pin C19 is keyed, pin is removed and the female side is plugged
J1/P1, pin B10 is keyed, pin is removed and the female side is plugged
➂ J3/P3, pin A30 and J1/P1, pins B5 and B7 are not used. Pin assignments for –5V and –12V are for reference only.
Auxiliary 5V Power Connector, P2
Specifications (typical unless noted)
Power Output ➀
+5 Vdc at 1 Amp maximum
Power Characteristics
See MAPC-104 Specifications
P2 Header Type
AMP/Tyco Electronics 640455-2
Contact Dimensions
Two 0.025” square posts, 0.3" long, 0.10"
spacing on centers. See drawings.
Contact Material
Tin plating over copper alloy
Contact Assembly Force
3 lbs. (13N)
Mating Connector ➁
Single-row, 2-position IDC on 0.10" spacing
Environmental
Compatible with host MAPC-104 system
➀ The contacts are rated at 5 Amps 250Vac. However, whatever current is drawn must be
summed with current powering the PC-104 system.
➁ A suggested mating connector is AMP / Tyco Electronics MTA-100 Series, part number
647000-2. See also the CST-100 Series..
For the MAPC-104-5V model version, spare +5 Vdc power may be taken
from the P2 connector which is adjacent to the pin 1 end of the J1 connector
(see drawings). Be aware that this power is generated on the MAPC-104
and therefore is in addition to whatever 5V current is used by the host PC104 system. All power characteristics (regulation, tempco, ripple, etc.) are
derived from the MAPC-104.
3
PC/104-Plus Series
4 6 W, T R I P L E O U T P U T D C / D C C O N V E RT E R
Performance/Functional Specifications
Typical @ TA = +25°C under nominal line voltage and nominal-load conditions unless noted. ➀
➀ All models are tested and specified with a single, external, 0.1µF, multi-layer ceramic output
capacitor on each output and no external input capacitors, unless otherwise noted. All models
will effectively regulate under no-load conditions (with perhaps a slight increase in output
ripple/noise).
➁ See Technical Notes/Performance Curves for additional explanations and details.
➂ Input Ripple Current is tested/specified over a 5-20MHz bandwidth with an external 33µF input
capacitor and a simulated source impedance of 220µF and 12µH. See I/O Filtering, Input Ripple
Current and Output Noise for details.
➃ The Current-Limit-Inception point is the output current level at which the converter's powerlimiting circuitry drops the output voltage 3% from its initial value. See Output Current Limiting
and Short-Circuit Protection for more details.
➄ See Dynamic Load Response for detailed results including switching frequencies.
➅ For Start-Up-Time specifications, output settling time is defined as the output voltage having
reached ±1% of its final value and the load current having reached at least 80% of its
final value.
➆ MTBF is calculated using TELCORDIA SR-332 Method 1 Case 3, ground fixed, +25°C ambient
air and full-load conditions. Contact DATEL for demonstrated life test data.
➇ All models are fully operational and meet all published specifications, including "cold start,"
at –40°C.
➈ The highly unlikely, simultaneous failure of several specific on-board components could
result in the MAPC-104's input voltage appearing at its output, despite the unit's output
overvoltage protection mechanisms. In this rare situation, the Power Good signal
(IPH pin 2, Pwr_LED_Drive) will be deactivated and systems monitoring Power Good will
eventually shut down. If you are using an MAPC-104 to power a load that must be protected
against any and all possible overvoltages, no matter how rare, you will have to provide
the protection external to the MAPC-104. Please contact DATEL for recommendations.
Input
Input Voltage Range
9-32 Volts (12V or 24V Battery)
Transient Voltage Protection
125V/100ms (30kVA)
Overvoltage Shutdown
32-36 Volts (34V typical)
Overvoltage Protection
48V/5 minutes
Start-Up Threshold ➁
9-10 Volts (9.4V typical)
Undervoltage Shutdown ➁
7-9 Volts (8.2V typical)
Input Current
See Performance Specifications
Input Reflected Ripple Current ➂
45mVp-p
Internal Filter Type
Pi
Reverse Polarity Protection
Yes (external fuse mandatory)
Output
Minimum Loading Per Output
No load
Maximum Capacitive Loading
2000µF (+3.3V)
1000µF (+5.1V)
500µF (+12V)
VOUT Accuracy (50% Load)
±3% maximum
Temperature Coefficient
±0.02%/°C
Ripple/Noise (20MHz BW)
See Performance Specifications
Line/Load Regulation
See Performance Specifications
Efficiency
See Performance Specifications
Current Limit Inception ➃
(97% VOUT, each other
output @ 0 Amps)
7-9 Amps (+3.3V)
8.5-11 Amps (+5.1V)
0.2-0.5 Amps (+12V)
Short Circuit Current
(Zener)
2.65 Amps (+3.3V)
3.24 Amps (+5.1V)
0.12 Amps (+12V)
Overvoltage Protection ➈
3.9V (+3.3V)
6V (+5.1V)
13V (+12V)
Power Good
within 7-10% of VOUT
Absolute Maximum Ratings
Dynamic Characteristics
200µsec max. (+3.3V & +5.1V)
100µsec max. (+12V)
Power-up Sequencing ➅
(5.1V power-up before 3.3V)
2-6msec
Power-down Sequencing
(5.1V power-down before 3.3V)
1-4msec
Switching frequency
320kHz (+3.3V & +5.1V)
1120kHz (+12V)
TBC million hours
Operating Ambient Temperature ➇
with 100 lfm Air Flow, no Derating
–40 to +85°C
Board Temperature
–40 to +105°C
Thermal Shutdown
+112 to +118°C
Thermal Shutdown Warning
27 to 33 seconds
2nd Level Thermal Shutdown
+122 to +128°C
Storage Temperature
–40 to +105°C
See Mechanical Dimensions
Connector and Pin Material
According to PC/104-plus
plus Spec
Weight
3.6 ounces (102 grams)
Insulation Level
Non-isolated
External Fuse mandatory
Output current
Current limited. Devices can withstand
an indefinite output short circuit.
Model Number
Auxiliary Power Connector (P2)
MAPC-104
Not installed
MAPC-104-5V
Installed
MAPC-104-Y
RoHS-5 hazardous substance compliance, no P2
Connector Designations
The official PC/104 bus specification identifies the standard interboard bus
connections as paired J1/P1 and J2/P2 on one side and J3/P3 on the other
side. However, J1/P1/J2/P2 is physically all one big 4-row connector with J1/
J2 bus receptacle sockets (female) on the top side and P1/P2 pins (male) on
the bottom. This arrangement provides interboard pass-through connections
between PC/104 boards. DATEL refers to this single connector as “J1.”
DATEL’s auxiliary connectors (the IPH and the 5V Auxilliary Power Connector) are internally designated P1 and P2 respectively and this nomenclature
may appear on the board silkscreening. This is purely an artifact of automated sequential part numbering in our CAD system and has no relation to
the standard PC/104 interboard bus connectors. Don’t get the connectors
confused since they are all very different types and locations!
Physical
Dimensions
Input Reverse Polarity Protection
Ordering Guide
Environmental
Calculated MTBF ➆
36V
48V
125V (30kVA)
These are stress ratings. Exposure of devices to any of these conditions may adversely
affect long-term reliability. Proper operation under conditions other than those listed in the
Performance/Functional Specifications Table is not implied, nor recommended.
See Tech Notes
(LED and external Signal)
Dynamic Load Response ➄
(50-100% step to within 1% of VOUT)
Input Voltage:
Continuous
Up to 5 minutes maximum
Transient (100ms)
4
PC/104-Plus Series
4 6 W, T R I P L E O U T P U T D C / D C C O N V E RT E R
Typical Performance Curves for MAPC-104 Series
3.3VOUT Efficiency vs. Line Voltage and Load Current
(5.1V @ 5.46A and 12V @ 0.07A)
94
94
93
93
92
92
91
91
Efficiency (%)
Efficiency (%)
Efficiency vs. Line @ 46W
90
89
VIN = 9V
VIN = 12V
VIN = 24V
90
89
VIN = 32V
88
88
87
87
86
86
9
12
18
24
28
32
0
1.25
Input Voltage (V)
5.1VOUT Efficiency vs. Line Voltage and Load Current
(3.3V @ 5A and 12V @ 0.07A)
3.75
5
6.3
0.08
0.1
12VOUT Efficiency vs. Line Voltage and Load Current
(5.1V @ 5.46A and 3.3V @ 5A)
94
94
VIN = 9V
93
93
92
VIN = 9V
92
91
VIN = 12V
Efficiency (%)
Efficiency (%)
2.5
Load Current (Amps)
90
VIN = 24V
89
VIN = 12V
90
VIN = 24V
89
VIN = 32V
VIN = 32V
88
91
88
87
87
86
86
0
1.25
2.5
3.75
5
6.3
0
Load Current (Amps)
0.02
0.04
0.06
Load Current (Amps)
5
PC/104-Plus Series
4 6 W, T R I P L E O U T P U T D C / D C C O N V E RT E R
Self-Protection Features
Pwr_LED_Drive Out (pin 2, pullup to internal +5V):
The MAPC-104 contains two systems for protection of out-of-limit voltages,
currents and temperature. These systems control two output lines located on
the Input Power Header connector. Both systems operate independently and
concurrently. The MAPC-104 will respond to both temperature and voltage/
current simultaneously.
HI (transistor off) = Power is normal. LED lamp is illuminated.
LO (transistor on) = Power fault, LED lamp is dark
Overtemperature Operation
The overtemperature system includes a on-board temperature sensor, a local
microcontroller with A/D inputs, a timer and hysteresis so that the user may
take steps to prevent inadvertant shut down. Operation proceeds as follows:
The output circuits for both these controls are shown below. Both of them will
drive either an external LED lamp and/or a logic circuit. The Overtemperature
Warning Circuit assumes that an external pullup resistor is supplied by the
user. The Power Good Circuit (“Pwr_LED_Drive Out”) includes an on-board
pullup resistor to drive an external LED with about 15mA.
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If the on-board temperature exceeds +115°C, the OT_Warn Output is
asserted (LO) by the microcontroller and an internal 30 second software
timer is started. The outputs remain powered on.
If the 30-second timer has not expired and the on-board temperature cools
below +110°C, the OT_Warn Output will be deasserted (HI) and operation
will continue unchanged.
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If the 30-second timer has expired and the temperature still exceeds +115°C,
the outputs will shut down. As soon as the on-board temperature cools to
less than +110°C, the MAPC-104 will automatically restart and power will be
restored to the outputs.
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The 5 degree hysteresis between 110 and 115°C prevents rapid cycling of
the OT_Warn Output.
If the on-board temperature reaches +125°C, the outputs will shut down,
regardless of the state of the 30-second timer. The temperature must cool to
less than +110°C for autorestart.
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Typical External Logic Wiring
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Typical OT Warning External LED Lamp Wiring
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Typical Power Good External LED Lamp Wiring
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Figure 1. Overtemperature Warning Circuit
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The transistors in these outputs are either on (typically less than 0.4 Volts
out) or off (high impedance state). Depending on how the user wires the
external circuit, these indicators have the following sense:
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Figure 2. Power Good Circuit
OT_Warn Out (pin 1):
HI (transistor off) = temperature is normal
LO (transistor on) = Over temperature condition
6
PC/104-Plus Series
4 6 W, T R I P L E O U T P U T D C / D C C O N V E RT E R
Power Good Operation
Local power is measured by several circuits shared with the overtemperature
system. The Pwr_LED_Drive Output is indirectly controlled by the on-board
microcontroller. The on-board PWM switching controller measures +3.3V and
+5V output voltages and all output currents. The microcontroller measures
input voltage and the +12V output voltage. The system requires that the
input voltage is within normal tolerances at all times. If the input voltage is
too high very briefly at startup (but not exceeding the absolute input voltage),
the system will start normally if the input voltage reaches acceptable limits
quickly (under half a second). This typically occurs as a load is applied.
When the system first starts, the Power Good LED (if installed) remains dark
briefly until all on-board startup conditions are met (less than half a second)
at which point the LED is illuminated. Operation proceeds as follows:
If the outputs on any lines deviate from approximately ±7% of nominal
and/or the output current is excessive, the outputs are all shut down and
the Pwr_LED_Drive Output is desasserted (LO, lamp dark). The system will
attempt to restart in about half a second by briefly turning on all outputs. If
successful and the fault is eliminated, the Pwr_LED_Drive Output will be
asserted (HI, lamp lit) and operation continues.
If the fault condition remains, the system will attempt to restart two more
times, spaced about half a second apart. If the fault remains for the third
time, the system will shut down and will not retest the fault. The system must
now be restored by fully cycling the input power.
The 3-fault countdown only occurs if the fault does not recover continuously
throughout the attempted restart interval. An occasional random shutdown
and successful restart will not trigger the 3-fault counter. However, external
logic should record the frequency and quantity of such shutdowns.
RoHS-5 compliance refers to the exclusion of the six hazardous substances
in the RoHS specification with the excepion of lead. C&D Technologies'
RoHS-5 products use all the conforming RoHS materials, however our
solders are Sn63/Pb37.
C&D Technologies (NCL), Ltd. Milton Keynes, United Kingdom, Tel: 44 (0) 1908 615232
Internet: www.cd4power.com E-mail: [email protected]
C&D Technologies (DATEL) S.A.R.L. Montigny Le Bretonneux, France Tel: 01-34-60-01-01
Internet: www.cd4power.com E-mail: [email protected]
C&D Technologies (DATEL) GmbH München, Germany Tel: 89-544334-0
Internet: www.cd4power.com E-mail: [email protected]
C&D Technologies (DATEL), Inc.
11 Cabot Boulevard, Mansfield, MA 02048-1151 U.S.A.
Tel: (508) 339-3000 (800) 233-2765 Fax: (508) 339-6356
www.cd4power.com
ISO 9001 REGISTERED
C&D Technologies KK Tokyo, Japan Tel: 3-3779-1031, Osaka Tel: 6-6354-2025
Int.: www.cd4power.jp Email: [email protected], [email protected]
Email: [email protected]
DS-0528
12/05
China Shanghai, People's Republic of China Tel: 86-50273678
Internet: www.cd4power.com E-mail: [email protected]
C&D Technologies (DATEL), Inc. makes no representation that the use of its products in the circuits described herein, or the use of other technical information contained herein, will not infringe upon existing or future patent rights. The descriptions contained herein do not imply the
granting of licenses to make, use, or sell equipment constructed in accordance therewith. Specifications are subject to change without notice. The DATEL logo is a registered trademark of C&D Technologies, Inc..
7
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