EN5364QI
Pin Descriptions
PIN
1-4,
NAME
FUNCTION
Input/Output power ground. Connect these pins to the ground electrode of the input
27-33,
64-68
PGND
and output filter capacitors. See VOUT and PVIN descriptions for more details.
Regulated converter output. Connect to the load, and place output filter capacitor(s)
between these pins and PGND pins 1-4 and 64-68.
5-13
VOUT
NC
NO CONNECT: These pins must be soldered to PCB but not be electrically connected
to each other or to any external signal, voltage, or ground. These pins may be
connected internally. Failure to follow this guideline may result in device damage.
NO CONNECT: These pins are internally connected to the common switching node of
the internal MOSFETs. They must be soldered to PCB but not be electrically
connected to any external signal, ground, or voltage. Failure to follow this guideline
may result in device damage.
14-24,
44-47
25-26
NC(SW)
Input power supply. Connect to input power supply, place input filter capacitor(s)
between these pins and PGND pins 27-33.
34-43
48
PVIN
Clock Output. Depending on the mode, either a clock signal or the PWM signal is
output on this pin. These signals are delayed by a time that is related to the resistor
connected between S_DELAY and AGND. Leave this pin floating if not needed.
Clock Input. Depending on the mode, this pin accepts either an input clock to
synchronize the internal switching frequency or the S_OUT signal from another
EN5364QI. Leave this pin floating if it is not used.
S_OUT
49
S_IN
This is a Ternary Input. Floating the pin disables parallel operation. A low level
configures the device as Master and a High level configures the device as a slave.
This is the Enable Pre-Bias Input. When this pin is pulled high, the Device will support
monotonic start-up under a pre-biased load. There is a 150kΩ pull-down on this pin.
This is the Device Enable pin. A high level enables the device while a low level
disables the device.
Input power supply for the controller. Needs to be connected to VIN at a quiet point.
Power OK is an open drain transistor for power system state indication. POK is a
logic high when VOUT is with -10% to +20% of VOUT nominal. Being an open drain
output allows several devices to be wired to logically AND the function. Size pull-up
resistor to limit current to 4mA when POK is low.
50
51
M/S
EN_PB
52
53
ENABLE
AVIN
54
POK
55
56
57
58
AGND
VFB
Ground return for the controller. Needs to be connected to a quiet ground.
External Feedback input. The feedback loop is closed through this pin. A voltage
divider at VOUT is used to set the output voltage. The mid-point of the divider is
connected to VFB. The control loop regulates to make the VFB node voltage 0.6V.
Optional Error Amplifier output. Allows for customization of the control loop.
When this pin is pulled to AGND, the overcurrent protection trip point is increased by
EAOUT
OCP_ADJ approximately 30%. Leave floating for default OCP threshold (see Electrical
Characteristics table). Tie this pin to AGND for pin compatibility with the EN5394.
A soft-start capacitor is connected between this pin to AGND. The value of the
capacitor controls the soft-start interval and startup time.
A resistor is connected between this pin and AGND. The value of the resistor controls
the delay in S_OUT. This pin can be left floating if the S_OUT function is not used.
59
60
SS
S_DELAY
These are 2 ternary input pins. Each pin can be a logical Lo, Logical Hi or Float
MAR1,
MAR2
condition. 7 of the 9 states are used to modulate the output voltage by 0%, ±2.5%,
±5% or ±10%. The 8th state is used to by-pass the delay in S_OUT. See Functional
Description section.
61-62
63
VSENSE This pin senses VOUT when the device is placed in the Back-feed (or Pre-bias) mode.
Device thermal pads to be connected to the system gnd plane. See Layout
Recommendations section.
69, 70
PGND
©Enpirion 2009 all rights reserved, E&OE
3
www.enpirion.com
03544
8/21/2009
Rev:B