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PDF HV9606X Data sheet ( Hoja de datos )
| Número de pieza | HV9606X | |
| Descripción | HV9606 Current-Mode PWM Controller with Supervisor | |
| Fabricantes | Supertex Inc | |
| Logotipo |  |
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Hay una vista previa y un enlace de descarga de HV9606X (archivo pdf) en la parte inferior de esta página. Total 9 Páginas | ||
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HV9606
Initial Release
HV9606 Current-Mode PWM Controller with Supervisor
Features
Synchronous Forward, Forward, and Flyback Controller
Lowest External Parts Count, Smallest Magnetics
Eliminates Bootstrap Transformer Winding
Supervisor Circuit Reduces Output Capacitance* up to 40%
Supervisor Circuit Functions as µP Supply Monitor and POR
15V to 250V Start-Up Regulator with START/STOP Control
<1mA Operating, <6µA Standby Input Current
VDD Powered Operation down to 2.9V
Charge Pump Gate Drive Supply
Programmable Soft Start
Under Voltage Lockout with Programmable Hysteresis
<50% Duty Cycle Operation
15kHz to 400kHz Fixed Frequency PWM Operation
Fault Tolerant Peer-to-Peer Synchronization
Precision !1% Band Gap Voltage Reference
Current Sense Leading Edge Blanking
Small SSOP-20 Footprint
*For short duration line loss, supervisor disables soft start if output
within tolerance when VIN returns and thus reduces holdup
requirements.
Applications
Powered Ethernet and VoIP Terminals
Cable Modems and Amplifiers
ISDN Network Terminations, Terminals and Adapters
Network Equipment
Servers, PCs and Peripheral Equipment
Telecommunication Systems and Terminals
Distributed Board Mounted Power
Battery Backup Systems
Portable Power Applications
Automotive and Heavy Equipment
General Description
The HV9606 PWM controller allows the design of high efficiency
(>90%) power supplies for distributed board mounted power (BMP)
applications. Due to its high frequency capability it can provide
high currents (20A @ 3.3V) with small transformers and due to its
low internal operating voltage and current is also able to achieve
high efficiencies in low power applications.
The HV9606 utilizes fixed frequency current mode control with duty
cycle internally limited to <50%. It supports both isolated and non-
isolated topologies and provides all the necessary functions to
implement a flyback, forward or synchronous forward converter
with a minimum of external parts. Due to its low VDD operation the
bootstrap magnetic winding is eliminated in non-isolated
topologies. An on chip charge pump generates the gate drive
voltage for driving an external N-channel MOSFET and eliminates
the need for clamping by offering 250V immunity to high voltage
transients common in telecom and network systems. It conforms
to the requirements of IEEE 802.3 Powered Ethernet and ETR-080
ISDN specifications.
The oscillator is programmable and provides fault tolerant peer-to-
peer synchronization to other similar circuits or master clock. The
chip draws almost no current (<6µA @ VIN < 20V) until the
programmable START/STOP thresholds of the start-up regulator
are satisfied. It can also be powered via the VDD pin, rather than
the VIN pin, in the range of 2.9V to 5.5V.
Other functions include leading edge current sense blanking,
programmable SOFT START, precision !1% band gap reference
and a SUPERVISOR CIRCUIT. The SUPERVISOR can provide
housekeeping functions such as µP supply monitoring and reset,
soft start inhibit for rapid restart on short duration input voltage
interruption. It also minimizes input and output capacitance
requirements.
Typical Application Circuit
+48V
GND
R3
R2
R1
C1
10W Non-Isolated 48V to 3.3V Flyback Converter
C2
C4
C3
R4
1 VDD
2 START
3 STOP
4 Vin
5 REF
6 SS
7 SYNC
8 RT
9 SGND
10 PGND
STATUS 20
SENSE 19
FB
COMP
18
C7
17
NI 16
CA 15
CB 14
VX2 13
GATE 12
CS 11
C9
C8
R6
C6
C5
T1
M1
R5
D1
R7
R8
R9
To SYNC pin of other HV9606 PWMs.
To uP
RESET
Q1 Pin.
+3.3V
C10
R10
GND
1 4/15/2002-R.L2
Supertex, Inc. 1235 Bordeaux Drive, Sunnyvale, CA 94089 TEL: (408) 744-0100 FAX: (408) 222-4895 www.supertex.com
1 page  
Functional Block Diagram
Vin
STOP
START
Regulator Start-Up
Enable Regulator
Programable
Start/Stop
Circuit
Oscillator
Enable
Vdd
UVLO
C
VX2
UVLO
C
HV9606
Voltage
Doubler
Vdd
CA
CB
VX2
Oscillator
CLK Q
_
D ___ Q
CLR
Soft
Start
Supervisor Enable
Circuit
Soft
Start
Circuit
SQ
A
CR
R
R
R
C
Current
Limit
Vdd
Bandgap
Reference
Generator
85 nS Delay
GATE
CS
PGND
SGND
RT SYNC STATUS SENSE SS VREF NI
FB COMP
Functional Description
The HV9606 is composed of several functional blocks. The
operation of each of these blocks is described in the following
sections.
Programmable Start/Stop Control Circuit
(Programmable Under Voltage Lockout and Hysteresis)
The START/STOP control circuit is a novel version of a
programmable under voltage lockout with programmable
hysteresis circuit. It is novel, because it requires zero power (other
than the current in the resistor divider) and keeps the startup
regulator shut down until the START threshold voltage is
exceeded, allowing the HV9606 to achieve its low input leakage
current of <6µA.
One can think of the circuit as a transparent latch, such that its
output is high when the START pin is above its threshold voltage
and is latched when the STOP pin is at a voltage greater than the
START pin voltage. It is unlatched when the STOP pin voltage
falls below its threshold voltage and the START pin is below its
threshold voltage.
These operating conditions are met by using a voltage divider
consisting of three resistors (see typical application circuit). The
voltage drop on the resistor connected to ground controls the
START voltage and the additional voltage drop on the middle
resistor sets the hysteresis and controls the STOP voltage. Setting
the value of the middle resistor to zero results in zero hysteresis.
Provided the START and STOP pin input currents are negligible in
comparison to the chosen resistor divider current, the resistor
values may be calculated using the following equations:
R3 = (VSTART / VIN-Start) x (VIN-Stop / IResistor)
R2 = [(VSTOP / VIN-Stop) x (VIN-Stop / IResistor)] – R3
R1 = (VIN-Operating / IResistor) - R2 - R3
Where:
VSTART is the START pin threshold voltage (nominal 7V)
VSTOP is the STOP pin threshold voltage (nominal 7V)
VIN-Start is the input voltage at which starting is desired
VIN-Stop is the input voltage at which shutdown is desired
IResistor is the resistor divider current (>1µA)
5 4/15/2002-R.L2
Supertex, Inc. 1235 Bordeaux Drive, Sunnyvale, CA 94089 TEL: (408) 744-0100 FAX: (408) 222-4895 www.supertex.com
5 Page | ||
| Páginas | Total 9 Páginas | |
| PDF Descargar | [ Datasheet HV9606X.PDF ] | |
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