SQ60120ETA20xyz-G [SYNQOR]

Industry standard eighth-brick pin-out configuration;


型号：	SQ60120ETA20xyz-G
厂家：	SYNQOR WORLDWIDE HEADQUARTERS
描述：	Industry standard eighth-brick pin-out configuration
文件：	总14页 (文件大小：2129K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

Technical

Specification

SQ60120ETA20

35-75V

100V

12V

Output

240W

Max Power

2250V dc

Eighth-brick

DC-DC Converter

Continuous Input Transient Input

Isolation

The BusQor® SQ60120ETA20 bus converter is a next-

generation, board-mountable, isolated, ﬁxed switching

frequency dc-dc converter that uses synchronous

rectiﬁcation to achieve extremely high conversion

efﬁciency. The power dissipated by the converter is

so low that a heatsink is not required, which saves

cost, weight, height, and application effort. The SQ

BusQor series provides an isolated step down voltage

from 48V to a semi-regulated 12V intermediate bus.

BusQor converters are ideal for customers who need

multiple outputs and wish to build or buy point of load

converters to work with a 12V rail. RoHS Compliant

(see last page).

SQ60120ETA20 Model

Operational Features

• Ultra-high efﬁciency, 94% at full rated load current

Control Features

• Delivers 20A (240W) power with minimal derating

- no heatsink required

• Wide input voltage range: 35-75Vdc

with 100V 100ms input voltage transient capability

• Fixed frequency switching provides predictable EMI

• On/Off control referenced to input side

• Inherent current share (by droop method) for high current

and parallel applications.

Protection Features

• Input under-voltage lockout and over-voltage shutdown protects

against abnormal input voltages

• Output current limit and short circuit protection

• Output over-voltage protection

• Thermal shutdown

Mechanical Features

• Industry standard eighth-brick pin-out conﬁguration

• Size: 0.90” x 2.3” (22.9x58.4mm), 0.498” (12.65mm)

• Total weight: 1.25 oz (35 g)

Contents

Page No.

Open Frame Mechanical Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2

Electrical Characteristics. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3

Standards & Qualifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

Figures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

Application Section . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

Ordering Information. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

Safety Features

• UL 60950-1/R2011-12

• EN60950-1/A2:2013

• CAN/CSA-C22.2 No. 60950-1/A1:2011

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Page 1

Input:35-75V

Output:12V

Current:20A

Part No.:SQ60120ETA20

Open Frame Mechanical Diagram

.90

[22,9]

.498 ±.032

[12,65 ±0,81]

OVERALL HEIGHT

.600

.033 ±.030

[15,24]

[0,84 ±0,76]

BOTTOMSIDE

CLEARANCE

2.30

[58,4]

2.000

[50,8]

.14

[3,6]

.300 [7,62]

.600 [15,24]

.180 [4,57]

SEE NOTE 3

.15 [3,8]

NOTES

PIN DESIGNATIONS

PINS 1-3 ARE 0.040" (1.02mm) DIA. WITH

0.080" (2.03mm) DIA. STANDOFF SHOULDERS

Name

Function

PINS 4 & 5 ARE 0.062" (1.57mm) DIA. WITH 0.100"

(2.54mm) DIA. STANDOFF SHOULDERS

OTHER PIN EXTENSION LENGTHS AVAILABLE

ALL PINS: MATERIAL: COPPER ALLOY

FINISH: MATTE TIN OVER NICKEL PLATE

UNDIMENSIONED COMPONENTS ARE SHOWN FOR VISUAL

REFERENCE ONLY

Vin(+)

Positive Input Voltage

TTL input to turn converter

on and off, referenced to

Vin (-) with internal pull up

Negative input voltage

ON/OFF

Vin(-)

Vout(-)

Vout(+)

Negative output voltage

Positive output voltage

ALL DIMENSIONS IN INCHES(mm)

TOLERANCES: X.XXIN +/-0.02 (X.Xmm +/-0.5mm)

X.XXXIN +/-0.010 (X.XXmm +/-0.25mm)

MAXIMUM AREA THAT THE THERMAL TRANSFER MATERIAL IS

DEPOSITED

WEIGHT: 1.25 OZ (35 G) TYPICAL

WORKMANSHIP: MEETS OR EXCEEDS IPC-A-610C CLASS II

10)

UL/TUV STANDARDS REQUIRE A CLEARANCE OF 0.04” (1.02MM)

AROUND PRIMARY AREAS OF THE MODULE.

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Input:35-75V

Output:12V

Current:20A

Part No.:SQ60120ETA20

Technical Specification

SQ60120ETA20 Electrical Characteristics

Ta = 25 °C, airﬂow rate = 300 LFM, Vin = 48 V dc unless otherwise noted; full operating temperature range is -40 °C to +100 °C ambient temperature

with appropriate power derating. Speciﬁcations subject to change without notice.

Parameter

ABSOLUTE MAXIMUM RATINGS

Min.

Typ.

Max. Units Notes & Conditions

Input Voltage

Non-Operating

Operating

Operating Transient Protection

Isolation Voltage

-1

100

Continuous

100 ms transient, square wave

Input to Output

Operating Temperature

Storage Temperature

2250

100

125

°C

-40

-45

-2

Voltage at ON/OFF input pin

INPUT CHARACTERISTICS

Operating Input Voltage Range

Input Under-Voltage Lockout

Turn-On Voltage Threshold

Turn-Off Voltage Threshold

Lockout Voltage Hysteresis

Input Over-Voltage Shutdown

Turn-On Voltage Threshold

Turn-Off Voltage Threshold

Maximum Input Current

No-Load Input Current

27.6

34.5

105

7.4

8.5

300

Disabled Input Current

Input Reﬂected-Ripple Current

Input Terminal-Ripple Current

Recommended Input Fuse (see Note 1)

Recommended External Input Capacitance

Input Filter Component Values (L\C)

OUTPUT CHARACTERISTICS

Output Voltage Set Point

Output Voltage Regulation

Over Line

Over Load

Over Temperature

Total Output Voltage Range

Output Voltage Ripple and Noise

Peak-to-Peak

125

RMS through 10µH inductor

RMS, full load

Fast blow external fuse recommended

Typical ESR 0.1-0.2 Ω

2.2\4.4

µF

µH\µF Internal values

12.46

12.5

12.54

12.60

Vin = 65 V; Io = 0 A

+0.1\-1.2

+0\-0.8

±300

10.20

Over sample, line, load, temperature & life

20 MHz bandwidth; see Note 2

Full load

Subject to thermal derating

Output Voltage 10% Low

140

180

RMS

Operating Output Current Range

Output DC Current-Limit Inception

Output DC Current-Limit Shutdown Voltage

Back-Drive Current Limit while Disabled

Maximum Output Capacitance

DYNAMIC CHARACTERISTICS

Output Voltage during Load Current Transient

Step Change in Output Current (0.1 A/µs)

Settling Time

µF

Negative current drawn from output

Vout nominal at full load (resistive load)

3,000

See Note 3

50% to 75% to 50% Iout max

To within 1% Vout nom

1300

750

2500

1200

µs

Turn-On Transient

Turn-On Time

Fault Inhibit Time

Output Voltage Overshoot

200

Full load, Vout=90% nom.

-40 °C to +100 °C; Figure E

3 mF load capacitance

Product # SQ60120ETA20

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Input:35-75V

Output:12V

Current:20A

Part No.:SQ60120ETA20

Technical Specification

SQ60120ETA20 Electrical Characteristics (continued)

Ta = 25 °C, airﬂow rate = 300 LFM, Vin = 48 V dc unless otherwise noted; full operating temperature range is -40 °C to +100 °C ambient temperature

with appropriate power derating. Speciﬁcations subject to change without notice.

Parameter

Min.

Typ.

Max. Units Notes & Conditions

ISOLATION CHARACTERISTICS

Isolation Voltage (dielectric strength)

Isolation Resistance

2250

MΩ

See Absolute Maximum Ratings

See Note 4

N/A

Isolation Capacitance (input to output)

TEMPERATURE LIMITS FOR POWER DERATING CURVES

Semiconductor Junction Temperature

Board Temperature

Transformer Temperature

EFFICIENCY

125

°C

Package rated to 150 °C

UL rated max operating temp 130 °C

100% Load

50% Load

FEATURE CHARACTERISTICS

Switching Frequency

202

230

257

kHz

ON/OFF Control (Option P)

Off-State Voltage

On-State Voltage

-1

2.4

0.8

ON/OFF Control (Option N)

On-State Voltage

Off-State Voltage

-1

2.4

0.8

ON/OFF Control (Either Option)

Pull-Up Voltage

Pull-Up Resistance

Output Over-Voltage Protection

Over-Temperature Shutdown OTP Trip Point

Over-Temperature Shutdown Restart Hysteresis

RELIABILITY CHARACTERISTICS

Calculated MTBF (Telcordia) TR-NWT-000332

Calculated MTBF (MIL-217) MIL-HDBK-217F

Field Demonstrated MTBF

Application notes Figure B

124

°C

Over full temp range; no load

Average PCB Temperature

135

145

3.2

2.9

10⁶Hrs. 80% load, 300LFM, 40 °C Ta

10⁶Hrs. See our website for details

Note 1: Safety certiﬁcation tests were carried out using 15A fast blow fuse. Fuse interruption characteristics have to be taken into account

while designing input traces. User should ensure that Input trace is capable of withstanding fault currents

Note 2: For applications requiring reduced output voltage ripple and noise, consult SynQor applications support (e-mail: support@synqor.com)

Note 3: For full-load to no-load transient, OVP shutdown may occur with less than 660µF external capacitance having less than 8mΩ of ESR

Note 4: Isolation capacitance can be added external to the module.

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Input:35-75V

Output:12V

Current:20A

Part No.:SQ60120ETA20

Technical Specification

Standards Compliance & Qualification Testing

Parameter

STANDARDS COMPLIANCE

Notes & Conditions

UL 60950-1/R2011-12

Basic insulation

EN60950-1/A2:2013

CAN/CSA-C22.2 No. 60950-1/A1:2011

Note: An external input fuse must always be used to meet these safety requirements. Contact SynQor for ofﬁcial safety certiﬁcates on new

releases or download from the SynQor website.

Parameter

# Units Test Conditions

QUALIFICATION TESTING

Life Test

95% rated Vin and load, units at derating point, 1000 hours

Vibration

10-55 Hz sweep, 0.060" total excursion, 1 min./sweep, 120 sweeps for 3 axis

100g minimum, 2 drops in x, y and z axis

Mechanical Shock

Temperature Cycling

Power/Thermal Cycling

Design Marginality

Humidity

-40 °C to 100 °C, unit temp. ramp 15 °C/min., 500 cycles

Toperating = min to max, Vin = min to max, full load, 100 cycles

Tmin-10 °C to Tmax+10 °C, 5 °C steps, Vin = min to max, 0-105% load

85 °C, 95% RH, 1000 hours, continuous Vin applied except 5 min/day

MIL-STD-883, method 2003

Solderability

15 pins

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Input:35-75V

Output:12V

Current:20A

Part No.:SQ60120ETA20

Technical Specification

100

35 Vin

48 Vin

75 Vin

35 Vin

48 Vin

75 Vin

Load Current (A)

Figure 1: Efﬁciency at nominal output voltage vs. load current for minimum,

nominal, and maximum input voltage at 25°C.

Figure 2: Power dissipation at nominal output voltage vs. load current for

minimum, nominal, and maximum input voltage at 25°C.

25 ºC

40 ºC

55 ºC

25 ºC

40 ºC

55 ºC

100

200

300

400

100

200

300

400

Air Flow (LFM)

Figure 3: Efﬁciency at nominal output voltage and 60 % rated power vs. airﬂow

rate for ambient air temperatures of 25°C, 40°C, and 55°C (nominal input

voltage).

Figure 4: Power dissipation at nominal output voltage and 60 % rated power

vs. airﬂow rate for ambient air temperatures of 25°C, 40°C, and 55°C (nominal

input voltage).

Thermal Derating for Vin = 48 V;

orientation: pin 3 To pin 1

400

300

200

100

Semiconductor junction temperature is

within 1°C of surface temperature

Ambient Air Temperature (^oC)

Figure 5: Maximum output power derating curves vs. ambient air temperature

for airﬂow rates of 100 LFM through 400 LFM with air ﬂowing from pin 3 to pin

1 (nominal input voltage).

Figure 6: Thermal plot of converter at 14.7 A load current (maximum 125ºC

derating current) with 55ºC air ﬂowing at the rate of 200 LFM. Air is ﬂowing

across the converter from pin 3 to pin 1 (nominal input voltage).

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Input:35-75V

Output:12V

Current:20A

Part No.:SQ60120ETA20

Technical Specification

Derating Curves for Vin =48 V;

orientation: output to input

400

300

200

100

Ambient Air Temperature (^oC)

Figure 7: Maximum output power derating curves vs. ambient air temperature

for airﬂow rates of 100 LFM through 400 LFM with air ﬂowing from output to

input (nominal input voltage).

Figure 8: Thermal plot of converter at 13.5 A load current (max 125ºC derating

current) with 55ºC air ﬂowing at the rate of 200 LFM. Air is ﬂowing across the

converter from output to input (nominal input voltage).

Figure 9: Turn-on transient at half load (resistive load) and 3 mF output

capacitance (2.0 ms/div). Input voltage pre-applied. CH1: Vout (5V/div). CH2:

ON/OFF input (2V/div). Vin = 48 V.

Figure 10: Turn-on transient at zero load and 3 mF output capacitance (2.0 ms/

div). Input voltage pre-applied. CH1: Vout (5 V/div). CH2: ON/OFF input (2

V/div). Vin = 48 V.

Input

Reflected

Ripple

Input

Terminal

Ripple

Output

Voltage

Ripple

Current

source

impedance

i_S

i_C

DC-DC

Converter

OUT

SOURCE

electrolytic

capacitor

ceramic electrolytic

capacitor capacitor

Figure 11: Output voltage response to step-change in load current (50%-75%-

50%) of Iout (max); dI/dt = 0.1 A/µs). Load cap 100 µF, 100 mΩ ESR tantalum

cap. Top trace: Vout (2 V/div), Ch2: Iout (10A/div). Vin = 48 V

Figure 12: Test set-up diagram showing measurement points for Input Terminal

Ripple Current (Figure 13), Input Reﬂected Ripple Current (Figure 14), and

Output Voltage Ripple (Figure 15).

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Input:35-75V

Output:12V

Current:20A

Part No.:SQ60120ETA20

Technical Specification

Figure 13: Input Terminal Ripple Current, ic, at full rated output current and

nominal input voltage with 10 µH source impedance and 47 µF electrolytic

capacitor (200 mA/div). See Figure 12.

Figure 14: Input reﬂected ripple current, is, through a 10 µH source inductor at

nominal input voltage and rated load current (10 mA/div). See Figure 12.

35 Vin

48 Vin

75 Vin

Load Current (A)

Figure 15: Output voltage ripple at nominal input voltage and rated load current

(100 mV/div). Load capacitance: 1 µF ceramic capacitor and 15 µF tantalum

capacitor. Bandwidth: 20 Mhz. See Figure 12.

Figure 16: Output voltage vs. load current showing typical current limit curves

and converter shutdown points.

0.1

0.01

35 Vin

48 Vin

0.001

75 Vin

0.0001

100

1,000

10,000

100,000

1,000,000

Figure 17: Load Current (50 A/div) as a function of time when the converter

attempts to turn on into a 1 mΩ short circuit. Top trace (500 us/div) is an

expansion of the on-time portion of the bottom trace. Vin = 48V

Figure 18: Magnitude of incremental output impedance for minimum, nominal,

and maximum input voltage at full rated power.

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Input:35-75V

Output:12V

Current:20A

Part No.:SQ60120ETA20

Technical Specification

-5

-10

-20

-30

-40

-50

-15

-25

-35

-45

-55

35 Vin

48 Vin

75 Vin

35 Vin

48 Vin

75 Vin

100

1,000

10,000

100,000

100

1,000

10,000

100,000

1,000,000

Figure 19: Magnitude of incremental forward transmission for minimum,

nominal, and maximum input voltage at full rated power.

Figure 20: Magnitude of incremental reverse transmission for minimum,

nominal, and maximum input voltage at full rated power.

1000

100

35 Vin

48 Vin

75 Vin

0.1

100

1,000

10,000

100,000

Figure 21: Magnitude of incremental input impedance for minimum, nominal,

and maximum input voltage at full rated power.

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Input:35-75V

Output:12V

Current:20A

Part No.:SQ60120ETA20

Application Section

BASIC OPERATION AND FEATURES

CONTROL FEATURES

REMOTE ON/OFF (Pin 2): The ON/OFF input, Pin 2,

permits the user to control when the converter is on or off.

This input is referenced to the return terminal of the input

bus, Vin(-). There are two versions of the converter that

differ by the sense of the logic used for the ON/OFF input.

With voltages dropping and currents rising, the economics

of an Intermediate Bus Architecture (IBA) are becoming

more attractive, especially in systems requiring multiple

low voltages. IBA systems separate the role of isolation and

voltage scaling from regulation and sensing. The BusQor

series bus converter provides isolation and a coarse voltage

step down in one compact module, leaving regulation to

simpler, less expensive non-isolated converters.

In the positive logic version, the ON/OFF input is active

high (meaning that a high turns the converter on). In the

negative logic version, the ON/OFF signal is active low

(meaning that a low turns the converter on). Figure B is a

detailed look of the internal ON/OFF circuitry.

In Figure A below, the BusQor module provides the isolation

stage of the IBA system. The isolated bus then distributes

power to the non-isolated buck regulators to generate the

required voltage levels at the point of load. In this case, the

bucks are represented with SynQor’s NiQor series of non-

isolated dc-dc converters. In many applications requiring

multiple low voltage outputs, signiﬁcant savings can be

achieved in board space and overall system costs.

When designing an IBA system with bus converters, the

designer can select from a variety of bus voltages. While

there is no universally ideal bus voltage, most designs

employ one of the following: 12V, 9V, 7.5V, 5V, or 3.3V.

Higher bus voltages can lead to lower efﬁciency for the buck

regulators but are more efﬁcient for the bus converter and

provide lower board level distribution current. Lower bus

voltages offer the opposite trade offs.

SynQor’s SQ BusQor modules accept the full 48/60V

telecom bus voltage and have a narrow output voltage

range compatible with many non-isolated point of load

converters. When used in IBA systems, the output variation

of the BusQor must be in accordance with the input voltage

range of the non-isolated converters being employed.

3.3V

48Vdc

35-75V

2.5V

1.8V

+5V

12Vdc

Vin( )

BusQor

Converter

124k

1.5V

0.9V

ON/OFF

49.9k

100k

NiQor

Converters

Loads

TTL

Typical User Board

48Vdc

Front End

Vin(^_)

Figure A: Example of Intermediate Bus Architecture using BusQor bus converter

and NiQor non-isolated converters

Figure B: Internal ON/OFF pin circuitry

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Input:35-75V

Output:12V

Current:20A

Part No.:SQ60120ETA20

Application Section

Output Short Circuit Protection: When the output of

the BusQor module is shorted, a peak current of typically 65A

will ﬂow into the short circuit for a time of about 20ms. The

output of the BusQor will shutdown to zero volts after the

20ms have elapsed (Figure D). The shutdown period lasts

for a time of 200ms, at the end of which the BusQor module

tries to power up again. If the short circuit persists, the

output voltage will go through repeated cycles of shutdown

and restart with a duty cycle of 20ms (On) and 200ms (Off)

respectively. The BusQor module returns (auto resetting)

to normal operation once the short circuit is removed. The

BusQor is designed to survive in this mode indeﬁnitely

without damage and without human intervention.

Protection Features

Input Under-Voltage Lockout: The converter is designed

to turn off when the input voltage is too low, helping avoid

an input system instability problem, described in more detail

in the application note titled “Input System Instability”

available on www.SynQor.com . The lockout circuitry is a

comparator with DC hysteresis. When the input voltage is

rising, it must exceed the typical Turn-On Voltage Threshold

value (listed on the speciﬁcation page) before the converter

will turn on. Once the converter is on, the input voltage

must fall below the typical Turn-Off Voltage Threshold value

before the converter will turn off. Also see ﬁgure E.

Output Current Limit: The output of the BusQor module

is electronically protected against output overloads. When

an overload current greater than the “DC Current-Limit

Inception” speciﬁcation is drawn from the output, the

output of the BusQor will shutdown to zero volts after the

1 ms have elapsed (see Figure C). The shutdown period

lasts for a typical period of 200ms (Figure D) after which the

BusQor tries to power up again. If the overload persists, the

output voltage will go through repeated cycles of shutdown

and restart with a duty cycle of 20ms (On) and 200 ms (Off)

respectively. The BusQor module returns (auto resetting)

to normal operation once the overload is removed. The

BusQor is designed to survive in this mode indeﬁnitely

without damage and without human intervention.

In the Auto resetting mode, also referred to as “Hiccup”

mode, the power drawn from the 48 V input is about 5

Watts, most of which is dissipated into the external fault.

It is important that copper traces and pads from the output

circuit be designed to withstand the short term peaks,

although the average current into the fault may be as low

as 50 mA typical. See Figure 17 for appropriate waveform.

Over-Temperature Shutdown: A temperature sensor

on the converter senses the average temperature of the

module. The thermal shutdown circuit is designed to turn

the converter off when the temperature at the sensed

location reaches the Over-Temperature Shutdown value.

It will allow the converter to turn on again when the

temperature of the sensed location falls by the amount of

the Over-Temperature Shutdown Restart Hysteresis value.

55A

peak

Peak

Output

Current

Output

Current

30A

20A

Output

Voltage

Output

Voltage

<12V

12V

Time

Shutdown

200ms

Duty

20ms

1ms

Time

Figure C: Output Overload protection diagram (not to scale)

Figure D: Output Short Circuit and Auto-Resetting protection diagram (not to scale)

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Input:35-75V

Output:12V

Current:20A

Part No.:SQ60120ETA20

Application Section

APPLICATION CONSIDERATIONS

Vin

Startup Inhibit Period: Figure E details the Start-Up

Inhibit Period for the BusQor module when Vin is applied

with the On/Off pin asserted (enabled). Before time t1,

when the input voltage Off pin asserted (enabled). Before

time t1, when the input voltage is below the UVL threshold,

the unit is disabled by the Input Under-Voltage Lockout

feature. When the input voltage rises above the UVL

threshold, the Input Under-Voltage Lockout is released, and

a typical Startup Inhibit Period of 8ms from a Vin start-up.

Once the module recognizes it should be on it waits an

additional 4ms before it starts. When starting from an on/

off event the module has an inhibit time of 200ms like our

standard products. The output builds up to 90% or higher

of the nominal voltage and stabilizes to its nominal output

voltage in a total time of 15ms typical.

UVLO

On/Off

(N logic)

OFF

Vout

12V

12 ms

200 ms

At time t2, when the On/Off pin is de-asserted (disabled),

the BusQor module stops switching immediately. Fall time

from 12V to 0V is dependent on output capacitance load

current, and any parasitic trace inductance in the output

load circuit.

Fault Inhibit

Start-Up

Time

Start-up

Inhibit

15 ms

At time t3, when the On/Off pin is re-asserted (enabled),

the BusQor module output begins to build up after the

inhibit period of 200ms typical.

Figure E: Power Up/Down Diagram (not to scale) showing Start-Up Inhibit Period.

Refer to the Control Features section of the data sheet for

details on enabling and disabling methods for N and P logic

type modules.

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Input:35-75V

Output:12V

Current:20A

Part No.:SQ60120ETA20

Application Section

Droop Current Sharing:

This product has primary side regulation only. Primary side

regulation results in a voltage droop as the load current

increase (droop characteristic). The inherent impedance

of the power stage due to its droop characteristic can be

used to balance the load current between multiple modules

that are placed in parallel. The graphs in this section show

two units by way of example, but there is no fundamental

limit to the number of units that can be placed in parallel.

Temperature Mismatch Self Balancing: the slope of

the output voltage droop characteristic of semi regulated

module increases with increased temperature. Therefore,

if a paralleled unit were hotter than its neighbor because it

is supplying more load current, then its output voltage will

droop further forcing the cooler module(s) to increase its

load current. The increase in effective output resistance

due to an increase in temperature acts as a self correcting

mechanism (Figure G) when two or more modules are

connected in a parallel conﬁguration.

When multiple units having droop characteristics are placed

in parallel, the current sharing accuracy is determined by the

output voltage set point accuracy relative to the total output

voltage droop for a given load current range. A difference

in voltage between two units will cause a differential current

to ﬂow out of one unit and into the other. Figure F shows an

examplewithtwounitswithanoutputvoltagemismatchedby

0.5%. Inthisexample,whenUnitAisat100%ofitsfullrated

load current, Unit B is only at 90%, effectively reducing the

total available current by 5%. SynQor uses factory calibration

of each unit to ensure that output voltage is well matched.

Droop Characteristics with Voltage Mismatch

0.0%

Droop Characteristics with Temperature Mismatch (Self Balancing)

0.00%

-0.5%

-1.0%

-1.5%

-2.0%

-2.5%

-3.0%

-3.5%

-0.50%

-1.00%

-1.50%

-2.00%

-2.50%

-3.00%

-3.50%

Unit A (cooler)

40%

Unit B (hotter)

Unit A

Unit B

60%

-4.00%

-4.0%

10%

20%

30%

50%

60%

70%

80%

90%

100%

10%

20%

30%

40%

50%

70%

80%

90%

100%

Load Current (% of Rated Value)

Figure G: Droop Characteristic with Temperature Mismatch

(self balancing)

Figure F: Example of Droop Characteristic with Output Voltage Mismatch.

Product # SQ60120ETA20

Phone 1-888-567-9596

www.synqor.com

Doc.# 005-0005817 Rev. G

12/04/2015

Page 13

Input:35-75V

Output:12V

Current:20A

Part No.:SQ60120ETA20

Ordering Information

Part Numbering System

Ordering Information

The part numbering system for SynQor’s dc-dc converters follows the format

shown in the example below.

The tables below show the valid model numbers and ordering options for

converters in this product family. When ordering SynQor converters, please

ensure that you use the complete 15 character part number consisting of

the 12 character base part number and the additional characters for options.

Add “-G” to the model number for 6/6 RoHS compliance.

SQ 60 120 E T A 20 N R S - G

6/6 RoHS

Input

Voltage

35-75V

Output

Voltage

12V

Max Output

Current

20A

Model Number

Options (see

Ordering Information)

SQ60120ETA20xyz-G

Output Current

Thermal Design

Performance Level

Package Size

The following options must be included in place of the w x y z spaces in the

model numbers listed above.

Options Description: w x y z

Thermal

Design

Enable Logic

Pin Style

Feature Set

Output Voltage

K - 0.110”

N - 0.145”

R - 0.180”

Y - 0.250”

Input Voltage

N - Negative

P - Positive

A - Open Frame

S - Standard

Product Family

The first 12 characters comprise the base part number and the last 3

characters indicate available options. The “-G” suffix indicates 6/6 RoHS

compliance.

Not all combinations make valid part numbers, please contact SynQor for

availability.

Application Notes

A variety of application notes and technical white papers can be downloaded

in pdf format from our website.

RoHS Compliance: The EU led RoHS (Restriction of Hazardous

Substances) Directive bans the use of Lead, Cadmium, Hexavalent

Chromium, Mercury, Polybrominated Biphenyls (PBB), and Polybrominated

Diphenyl Ether (PBDE) in Electrical and Electronic Equipment. This SynQor

product is 6/6 RoHS compliant. For more information please refer to

SynQor’s RoHS addendum available at our RoHS Compliance / Lead Free

Initiative web page or e-mail us at rohs@synqor.com.

PATENTS

SynQor holds numerous U.S. patents, one or more of which apply to most of its power converter

products. Any that apply to the product(s) listed in this document are identiﬁed by markings on

the product(s) or on internal components of the product(s) in accordance with U.S. patent laws.

SynQor’s patents include the following:

Contact SynQor for further information and to order:

Phone:

Toll Free: 888-567-9596

Fax:

E-mail:

Web:

978-849-0600

5,999,417

6,896,526

7,269,034

7,787,261

6,222,742

6,927,987

7,272,021

8,023,290

6,545,890

7,050,309

7,272,023

8,149,597

6,594,159

7,072,190

7,558,083

8,493,751

6,731,520

7,085,146

7,564,702

8,644,027

6,894,468

7,119,524

7,765,687

9,143,042

978-849-0602

power@synqor.com

www.synqor.com

Address: 155 Swanson Road

Boxborough, MA 01719

USA

Warranty

SynQor offers a three (3) year limited warranty. Complete warranty

information is listed on our website or is available upon request from

SynQor.

Product # SQ60120ETA20

Phone 1-888-567-9596

www.synqor.com

Doc.# 005-0005817 Rev. G

12/04/2015

Page 14

SQ60120ETA20xyz-G [SYNQOR]

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