ISL8225M Datasheet PDF - Intersil
| Part Number | ISL8225M | |
| Description | Dual 15A/Single 30A Step-Down Power Module | |
| Manufacturers | Intersil | |
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Dual 15A/Single 30A Step-Down Power Module
ISL8225M
The ISL8225M is a fully-encapsulated step-down switching
power supply that can deliver up to 100W output power from a
small 17mm square PCB footprint. The two 15A outputs may
be used independently or combined to deliver a single 30A
output. Designing a high-performance board-mounted power
supply has never been simpler -- only a few external
components are needed to create a very dense and reliable
power solution.
Automatic current sharing and phase interleaving allow up to
six modules to be paralleled for 180A output capability. 1.5%
output voltage accuracy, differential remote voltage sensing
and fast transient response create a very high-performance
power system. Built-in output over-voltage, over-current and
over-temperature protection enhance system reliability.
The ISL8225M is available in a thermally-enhanced QFN
package. Excellent efficiency and low thermal resistance
permit full power operation without heat sinks or fans. In
addition, the QFN package with external leads permits easy
probing and visual solder inspection.
Related Resources
• See AN1789 “ISL8225MEVAL2Z 6-Phase, 90A Evaluation
Board Setup Procedure”
• See AN1790 “ISL8225MEVAL3Z 30A, Single Output
Evaluation Board Setup Procedure”
• See AN1793, “ISL8225MEVAL4Z Dual 15A/Optional 30A
Cascadable Evaluation Board”
• See ISL8225M 110A Thermal Performance Video
Features
• Fully-encapsulated dual step-down switching power supply
• Up to 100W output from a 17mm square PCB footprint
• Dual 15A or single 30A output
• Up to 95% conversion efficiency
• 4.5V to 20V input voltage range
• 0.6V to 6V output voltage range
• 1.5% output voltage accuracy with differential remote
sensing
• Up to six modules may be paralleled to support 180A output
current
• Output over-voltage, over-current and over-temperature
protection
• Full power operation without heat sinks or fans
• QFN package with exposed leads permits easy probing and
visual solder inspection
Applications
• Computing, networking and telecom infrastructure
equipment
• Industrial and medical equipment
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• General purpose point-of-load (POL) power
4.5V TO 20V
VIN
4x22µF
OFF ON
4.7µF
VIN1
VOUT1
VIN2
VOUT2
EN/FF1
VSEN1+ RSET
EN/FF2
VSEN1- 1kΩ
VSEN2- ISL8225M VMON1
1.2V @30A
VOUT
1kΩ
5x100µF
VCC
VMON2
COMP1
COMP2
470pF
NOTE: ALL PINS NOT SHOWN ARE FLOATING.
FIGURE 1. COMPLETE 30A STEP-DOWN POWER SUPPLY
17mm
17mm
7.5mm
FIGURE 2. SMALL FOOTPRINT WITH HIGH POWER DENSITY
December 3, 2012
FN7822.0
1
CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.
1-888-INTERSIL or 1-888-468-3774 | Copyright Intersil Americas Inc. 2012. All Rights Reserved
Intersil (and design) is a trademark owned by Intersil Corporation or one of its subsidiaries.
All other trademarks mentioned are the property of their respective owners.
datasheet pdf - http://www.DataSheet4U.net/
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ISL8225M
Pin Descriptions
PIN
NUMBER
PIN
NAME
TYPE
PIN DESCRIPTION
21, 1 VSEN1-, VSEN2- I Output voltage negative feedback. Negative input of the differential remote sense for the regulator. Connect to the
negative rail or ground of the load/processor, as shown in Figure 19. The negative feedback pins can be used to
program the module operation conditions. See Table 3 and Table 5 for details.
20, 2
COMP1, COMP2 I/O Error amplifier outputs. Typically floating for dual-output use. For parallel use, a 470pF~1nF capacitor is recommended
on the COMP pins of each SLAVE phase to eliminate the coupling noise. All COMP pins of SLAVE phases need to tie to
MASTER phase COMP1 pin (first phase). Internal compensation networks are implemented for working in the full range
of I/O conditions.
3
MODE
I Mode setting. Typically floating for dual-output use; tie to SGND for parallel use. See Table 3 and Table 5 for details.
When VSEN2- is pulled within 700mV of VCC, the 2nd channel’s remote sensing amplifier is disabled. The MODE pin,
as well as the VSEN2+ pin, determine relative phase-shift between the two channels and the CLKOUT signal output.
18, 4
VMON1, VMON2 I/O Remote sensing amplifier outputs. These pins are connected internally to OV/UV/PGOOD comparators, so they can’t
be floated when the module works in multi-phase operation. When VSEN1-, VSEN2- are pulled within 700mV of VCC,
the corresponding remote sensing amplifier is disabled; the output (VMON pin) is in high impedance. In this event, the
VMON pins can be used as an additional monitor of the output voltage, with a resistor divider to protect the system
against single point of failure. The default setting voltage is 0.6V. See Table 3 for details.
5
SYNC
I Signal synchronization. An optional external resistor (RSYNC) connected from this pin to SGND increases oscillator
switching frequency (Figure 31 and Table 1). The internal default frequency is 500kHz with this pin floating. Also, the
internal oscillator can lock to an external frequency source or the CLKOUT signal from another ISL8225M. Input voltage
range for external source: 3V to 5V square wave. No capacitor is recommended on this pin.
6
SGND
PWR Control signal ground. Connect to PGND under the module in the quiet inner layer. Make sure to have the single location
for the connection between SGND and PGND to avoid noise coupling. See “Layout Guide” on page 23.
7 VCC PWR 5V internal linear regulator output. Voltage range: 3V to 5.6V. The decoupling ceramic capacitor for the VCC pin is
recommended to be 4.7µF.
14, 8
VIN1, VIN2 PWR Power inputs. Input voltage range: 4.5V to 20V. Tie directly to the input rail. VIN1 provides power to the internal linear
drive circuitry. When the input is 4.5V to 5.5V, VIN should be tied directly to VCC.
9, 13
PGND
PWR Power ground. Power ground pins for both input and output returns.
12, 10
PHASE1,
PHASE2
PWR Phase node. Use for monitoring switching frequency. Phase pins should be floating or used for snubber connections.To
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achieve better thermal performance, the phase planes can also be used for heat removal with thermal vias connected
to large inner layers. See “Layout Guide” on page 23.
11 NC - Non-connection pin. This pin is floating with no connection inside.
15, 16
EN/FF1,
EN/FF2
I/O Enable and feed-forward control. Tie a resistor divider to VIN or use the system enable signal for this pin. The voltage
turn-on threshold is 0.8V. With a voltage lower than the threshold, the corresponding channel can be disabled
independently. By connecting to VIN with a resistor divider, the input voltage can be monitored for UVLO (under-voltage
lockout) function. The voltage on each EN/FF pin is also used to adjust the internal control loop gain independently to
realize the feed-forward function. Please set the EN/FF between 1.25V to 5V. A 1nF capacitor is recommended on each
EN/FF pin. Please see Table 1 to select resistor divider and application details in “EN/FF Turn ON/OFF” on page 19.
17
CLKOUT
I/O Clock out. Provide the clock signal for the input synchronization signal of other ISL8225Ms. Typically tied to VCC for
dual-output use with 180° phase-shift. See Table 3 and Table 5 when using more than one ISL8225M. When the
module is in dual-output mode, the clock-out signal is disabled. By programming the voltage level of this CLKOUT pin,
the module can work for DDR/tracking or as two independent outputs with selectable phase-shift. See Table 6.
19
ISHARE
O Current sharing control. Tie all ISHARE pins together when multiple modules are configured for current sharing and
share a common current output. The ISHARE voltage represents the average current of all active and connected
channels. A 470pF capacitor is recommended for each ISHARE pin for multiple phase applications. Typically, the
ISHARE pin should be floating for dual-output or single module application.
22, 26
VSEN1+,
VSEN2+
I Output voltage positive feedback. Positive inputs of differential remote sense for the regulator. A resistor divider can
be connected to this pin to program the output voltage. It is recommended to put the resistor divider close to the
module and connect the kelvin sensing traces of VOUT and VSEN- to the sensing points of the load/processor; see
Figure 19. The VSEN2+ pin can be used to program the module operation conditions. See Table 3 and Table 5 for
details.
23, 25 VOUT1, VOUT2 PWR Power Output. Apply output load between these pins and PGND pins. Output voltage range: 0.6V to 6V.
24
PGOOD
O Power good. Provide open-drain power-good signal when the output is within 9% of the nominal output regulation point
with 4% hysteresis (13%/9%) and soft-start complete. PGOOD monitors the outputs (VMON) of the internal differential
amplifiers.
5 FN7822.0
December 3, 2012
datasheet pdf - http://www.DataSheet4U.net/
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