Microchip HV9901NG-G Universal relay driver Datasheet

HV9901
Universal Relay Driver
Features
General Description
•
•
•
•
•
•
The HV9901 universal relay driver provides high-efficiency driving for low-voltage relays with supply voltages as high as 450V. For example, a relay with a 5V
coil can be driven directly from the rectified 120 VAC or
230 VAC line.
10V to 450V Input Voltage Range
Energy-saving Hold Current Mode
Adjustable Microcontroller Supply
Low Supply Current <1 mA
Constant-current Coil Drive
Programmable Pull-in Current, Pull-in Time and
Hold Current
Applications
•
•
•
•
Industrial Controls
Relay Timers
Solenoid Drivers
Home Automation
The IC includes two high-voltage linear regulators. The
first one is for providing power to internal control circuitry. The second one has an adjustable output voltage and a 1 mA output current capability to support
external circuitry, such as a microcontroller control circuit.
The pull-in current, pull-in time and hold current for the
relay are individually programmable through two resistors and a capacitor. PWM switching can be synchronized with an external clock or with another HV9901
operating at a higher frequency.
The relay is operated through the enable input ENI.
Logic polarity is under control of the polarity input POL.
Audible noise coming from the relay can be suppressed by operating at a PWM frequency exceeding
20 kHz.
Package Type
16-lead SOIC
1
16
4
See Table 2-1 for pin information.
WARNING
The HV9901 is suited for relay driving applications operating at hazardous voltage. Ensure that adequate
safeguards are provided to protect the end user from electrical shock.
 2016 Microchip Technology Inc.
DS20005550A-page 1
HV9901
Functional Block Diagram
1
VIN
16
VDD
4.7μF
UVLO
+
-
C
Bandgap 1.25V
Reference
A
VREF
15
100 nF
RHDA
R
14
RELAY
1N4937
LED
2R
CHD
HOLD/DELAY
10K
RHDB
VDD
4
GT
FB
S
13
RFBB
VDD
VN2460N8
215ns
Delay
+
Delay
Q
R
R
CS
5
5.5 kΩ
RFBA
100 nF
1.25V
CHD
+
VCC
12
5.0V
Low Limit
High Limit
RS
C
+
6
µP
VDD
ENI
COM
11
VDD
40μA
7
ROSC
8
DS20005550A-page 2
SYNC
RT
Oscillator
shutdown
High Duty
Cycle
Oscillator
ENO
POL
10
9
 2016 Microchip Technology Inc.
HV9901
Typical Application Circuit
VIN
VIN
VDD
VREF
HV9901
INT
REG
SYNC
VREF
PWM
VCC
FB
 2016 Microchip Technology Inc.
CS
RT
H/D
VCC
SYNC
GT
AUX
REG
POL
ENO
ENI
Enable Polarity
Enable
DS20005550A-page 3
HV9901
1.0
ELECTRICAL CHARACTERISTICS
Absolute Maximum Ratings†
Input Voltage, VIN1 ....................................................................................................................................–0.5V to 470V
Input Voltage to any other Pin1........................................................................................................ –0.3V to VDD + 0.3V
Operating Junction Temperature Range ................................................................................................ –40°C to +85°C
Continuous Power Dissipation (TA = +25°C)2 .................................................................................................... 750 mW

† Notice: Stresses above those listed under “Maximum Ratings” may cause permanent damage to the device. This is
a stress rating only, and functional operation of the device at those or any other conditions above those indicated in the
operational listings of this specification is not implied. Exposure to maximum rating conditions for extended periods
may affect device reliability.
Note 1: All voltages are referenced to GND.
2: For operation above 25°C ambient, derate linearly at 7.5 mW/°C.
ELECTRICAL CHARACTERISTICS
Electrical Specifications: TA= 25°C unless otherwise noted.
Parameter
Conditions
Symbol
Min.
Typ.
Max.
Unit
HIGH-VOLTAGE REGULATOR
Input Voltage
Supply Current
VIN
IIN
10
—
—
—
450
2
V
mA
Internal Supply Voltage
VDD
8.5
9
9.5
V
7.8
—
8.2
0.5
8.5
—
V
V
2
—
5.5
V
0
0
—
—
VREF
25
1
VDD–1V
100
mA
V
nA
No load at VDD (Note 1)
1.2
—
—
—
—
1.25
—
10
—
—
1.3
7
15
1
20
V
mV
mV
mA
μA
TA = –40°C to +85°C
0 mA < IREF < 0.3 mA
8.5V < VDD < 9.5V
VDD UVLO, On
UVLO(ON)
VDD UVLO, Hysteresis
UVLO(HYST)
ADJUSTABLE REGULATOR
Regulator Output Voltage
VCC
Range
Regulator Output Current
ICC
Feedback Voltage
VFB
Input Bias Current
IFB
REFERENCE
Bandgap Reference Voltage
VREF
Load Regulation
Line Regulation
Short Circuit Current
IREF(SHORT)
Reference Voltage Sink
IREF(SINK)
Current
DS20005550A-page 4
ICC = 0 mA to 1 mA load
No load at VDD (Note 1)
load at ICC = 1 mA,
CGT = 500 pF, fOSC = 25 kHz
No load at VDD (Note 1) 
CGT = 500 pF, fOSC = 25 kHz
ICC = 1 mA load
VFB = VREF
 2016 Microchip Technology Inc.
HV9901
ELECTRICAL CHARACTERISTICS (CONTINUED)
Electrical Specifications: TA= 25°C unless otherwise noted.
Parameter
Symbol
Min.
Typ.
Max.
Unit
OSCILLATOR
PWM Oscillator Frequency
fOSC
20
25
35
kHz
80
—
—
20
1
—
100
170
—
—
—
—
140
—
150
55
—
1
—
—
215
99.5
97.5
280
%
%
ns
RT = 1 MΩ
RT = 226 kΩ
tBLNK
96.5
86.5
150
VGTH
VGTL
tR
tF
VDD–0.3
—
—
—
—
—
30
30
—
0.3
50
50
V
V
ns
ns
IOUT = 10 mA
IOUT = –10 mA
CGT = 500 pF
VCS(HL)
0.775
0.833
0.891
V
tDELAY(HL)
—
200
250
ns
50 mV overdrive
ICS
VOS
—
—
25
—
1000
±60
nA
mV
POL = Low, ENI = Low
tDELAY(LL)
—
200
250
ns
50 mV overdrive
VHOLD/DEL
VDD–0.4
—
—
V
IHOLD/DEL
—
25
500
nA
IHOLD/DEL(sourcing)–100 μA
POL = Low, ENI = Low
POL = Low, ENI = Low
tENI
VENI
—
0.7 VCC
0
—
–5
0.7 VCC
0
—
–5
0.9 VCC
50
—
—
1
–1
—
—
1
–1
—
100
VCC
0.3 VCC
5
—
VCC
0.3VCC
5
—
VCC
ns
V
V
μA
μA
V
V
μA
μA
V
0
—
0.1 VCC
V
Temperature Coefficient
Oscillator SYNC Frequency
SYNC Sourcing Current
SYNC Sinking Current
SYNC Input Logic Low
Voltage
PWM
Maximum Duty Cycle
Blanking Time
MOSFET DRIVER
Gate Drive Output High
Gate Drive Output Low
Rise Time
Fall Time
CURRENT SENSE
Current Sense Voltage,
High Limit
Current Limit Delay to GT,
High Limit
Input Bias Current
Low Limit Comparator Input
Offset Voltage
Current Limit Delay to GT,
Low Limit
Hold/Delay Output Voltage
Hold/Delay Input Bias Current
Shutdown Delay
Enable Input Voltage - High
Enable Input Voltage - Low
Enable Input Current - High
Enable Input Current - Low
Polarity Voltage - High
Polarity Voltage - Low
Polarity Current - High
Polarity Current - Low
Enable Output Voltage High
Enable Output Voltage Low
—
fSYNC
ISYNC
ISYNC
VSYNC
DMAX
IENI
VPOL
IPOL
VENO
Conditions
RT = 1 MΩ
kHz
RT = 226 kΩ
ppm/°C TA = –40°C to +85°C
kHz
μA
mA
VSYNC = 0.1V
V
2V < VCC < 5.5V
Note 1: Maximum allowable load current limited by power dissipation and operating ambient temperature
 2016 Microchip Technology Inc.
DS20005550A-page 5
HV9901
TEMPERATURE SPECIFICATIONS
Parameter
Symbol
Min.
Typ.
Max.
Unit
TJ
–40
—
85
°C
θJA
—
83
—
°C/W
Conditions
TEMPERATURE RANGE
Operating Junction Temperature
PACKAGE THERMAL RESISTANCE
16-lead SOIC
1.1
Truth Table
ENABLE OUTPUT LOGIC TRUTH TABLE
POL
ENI
ENO
Low
Low
High
VGT = Oscillating output, duty cycle depends on inductive load
Low
High
Low
VGT = Low, SYNC = High, oscillator shutdown
High
High
Low
VGT = Oscillating output, duty cycle depends on inductive load
High
Low
High
VGT = Low, SYNC = High, oscillator shutdown
DS20005550A-page 6
Gate Drive Output
 2016 Microchip Technology Inc.
HV9901
2.0
PIN DESCRIPTION
The pin details of HV9901 are listed on Table 2-1. See
Package Type for the location of the pins.
TABLE 2-1:
PIN TABLE
Pin Number
Pin Name
Description
1
VIN
2
—
Pin not present
3
—
Pin not present
4
GT
Gate driver output for driving the external switching MOSFET
Current sense input
Input supply
5
CS
6
GND
Ground
7
SYNC
Open-drain input/output for synchronizing the internal PWM oscillator to other HV9901s or to an external clock
8
RT
9
POL
Input that determines the polarity of the ENI input.
See Truth Table.
10
ENO
Enable output. It is the logical inversion of the ENI signal.
11
ENI
Enable input. Whether ENI is active low or active high is determined by the POL input.
12
VCC
Output of the auxiliary regulator. Output voltage is determined by
the resistive divider connected to the FB pin.
13
FB
Feedback input for the auxiliary regulator.
14
H/D
HOLD/DELAY input. An RC network connected to this pin controls
the pull-in time and the holding current. See equations on page 4.
15
VREF
Reference voltage. Bypass locally with a 10 nF capacitor.
16
VDD
Output of the internal supply regulator. Bypass locally with a 10 nF
capacitor.
 2016 Microchip Technology Inc.
A resistor from this pin to ground sets the PWM switching frequency.
DS20005550A-page 7
HV9901
3.0
APPLICATION INFORMATION
To calculate external component values, use the equations shown in Equation 3-1 to Equation 3-8 as well as
Figure 3-1 and Figure 3-2.
EQUATION 3-5:
EQUATION 3-1:
V CS  LL 
I HOLD = -------------------R SENSE
I CS  HI  = 833mV NOM
EQUATION 3-2:
EQUATION 3-6:
V DD = 9V NOM
21.8GHz  
f PWM  3.23kHz + --------------------------------R OSC
EQUATION 3-3:
V CS
I PULL – IN = ------------------R SENSE
valid for fPWM > 23 kHz
EQUATION 3-4:
V CS  LL 
EQUATION 3-7:
V DD
= -----------------------R HDA
1 + --------------R HDB
R FBA
V CC = 1.25V   1 + --------------

R FBB
EQUATION 3-8:
V CS  HI  – V DD
t PULL – IN =  R HDA + R HDB   C HD  ln  1 – -------------------------------------

V CS  LL  – V DD
tPULL-IN
Current
IPULL-IN
IHOLD
Time
FIGURE 3-1:
DS20005550A-page 8
Current vs. Time.
 2016 Microchip Technology Inc.
HV9901
VIN
VIN
VDD
CDD
VREF
Int
Reg
SYNC
GT
VREF
CREF
PWM
RHDa
QSW
CS
RSENSE
H/D
RHDb
CIN
HV9901
RT
CHD
ROSC
2.0–5.5V
@ 1.0mA
VCC
RFBa
Aux
Reg
POL
ENO
FB
ENI
RFBb
FIGURE 3-2:
Typical Application Circuit.
 2016 Microchip Technology Inc.
DS20005550A-page 9
HV9901
4.0
PACKAGING INFORMATION
4.1
Package Marking Information
16-lead SOIC
Example
XXXXXXXX e3
YYWWNNN
HV9901NG e3
1611343
Legend: XX...X
Y
YY
WW
NNN
e3
*
Note:
DS20005550A-page 10
Product Code or Customer-specific information
Year code (last digit of calendar year)
Year code (last 2 digits of calendar year)
Week code (week of January 1 is week ‘01’)
Alphanumeric traceability code
Pb-free JEDEC® designator for Matte Tin (Sn)
This package is Pb-free. The Pb-free JEDEC designator ( e3 )
can be found on the outer packaging for this package.
In the event the full Microchip part number cannot be marked on one line, it will
be carried over to the next line, thus limiting the number of available
characters for product code or customer-specific information. Package may or
not include the corporate logo.
 2016 Microchip Technology Inc.
HV9901
16-Lead SOIC (Narrow Body) Package Outline (NG)
Pins #2 and #3 Trimmed
9.90x3.90mm body, 1.75mm height (max), 1.27mm pitch
D
θ1
16
Note 1
(Index Area
D/2 x E1/2)
E1 E
Gauge
Plane
L2
L
e
1
Top View
Seating
Plane
θ
L1
b
View B
View B
A
h
h
A
A2
Seating
Plane
A1
Side View
View A-A
A
Note: For the most current package drawings, see the Microchip Packaging Specification at www.microchip.com/packaging.
Note:
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DPROGHGPDUNLGHQWL¿HUDQHPEHGGHGPHWDOPDUNHURUDSULQWHGLQGLFDWRU
Symbol
MIN
Dimension
(mm)
A
A1
A2
b
D
1.35*
0.10
1.25
0.31
9.80*
NOM
-
-
-
-
MAX
1.75
0.25
1.65*
0.51
9.90
E
E1
e
5.80* 3.80*
6.00
3.90
10.00* 6.20* 4.00*
1.27
BSC
h
L
0.25
0.40
-
-
0.50
1.27
L1
L2
1.04 0.25
REF BSC
ș
ș
0O
5O
-
-
8O
15O
JEDEC Registration MS-012, Variation AC, Issue E, Sept. 2005.
7KLVGLPHQVLRQLVQRWVSHFL¿HGLQWKH-('(&GUDZLQJ
Drawings are not to scale.
 2016 Microchip Technology Inc.
DS20005550A-page 11
HV9901
NOTES:
DS20005550A-page 12
 2016 Microchip Technology Inc.
HV9901
APPENDIX A:
REVISION HISTORY
Revision A (August 2016)
• Updated file to Microchip format.
• Converted Supertex Doc # DSFP-HV9901 to
Microchip DS20005550A.
• Minor text changes throughout.
 2016 Microchip Technology Inc.
DS20005550A-page 13
HV9901
PRODUCT IDENTIFICATION SYSTEM
To order or obtain information, e.g., on pricing or delivery, refer to the factory or the listed sales office.
PART NO.
Device
-
XX
X
-
Package Environmental
Options
X
Media
Type
Device:
HV9901
= Universal Relay Driver
Package:
NG
= 16-lead SOIC
Environmental:
G
= Lead (Pb)-free/RoHS-compliant Package
Media Type:
(blank)
M901
M934
= 45/Tube for an NG Package
= 2600/Reel for an NG Package
= 2600/Reel for an NG Package
Examples:
a)
HV9901NG-G:
b)
HV9901NG-G-M901:
c)
HV9901NG-G-M934:
Universal Relay Driver,
16-lead SOIC 
Package, 45/Tube
Universal Relay Driver,
16-lead SOIC 
Package, 2600/Reel
Universal Relay Driver,
16-lead SOIC 
Package, 2600/Reel
Note: For media types M901 and M934, the base quantity for tape and reel was
standardized to 2600/reel. Both options will result in delivery of the same
number of parts/reel.
DS20005550A-page 14
 2016 Microchip Technology Inc.
Note the following details of the code protection feature on Microchip devices:
•
Microchip products meet the specification contained in their particular Microchip Data Sheet.
•
Microchip believes that its family of products is one of the most secure families of its kind on the market today, when used in the
intended manner and under normal conditions.
•
There are dishonest and possibly illegal methods used to breach the code protection feature. All of these methods, to our
knowledge, require using the Microchip products in a manner outside the operating specifications contained in Microchip’s Data
Sheets. Most likely, the person doing so is engaged in theft of intellectual property.
•
Microchip is willing to work with the customer who is concerned about the integrity of their code.
•
Neither Microchip nor any other semiconductor manufacturer can guarantee the security of their code. Code protection does not
mean that we are guaranteeing the product as “unbreakable.”
Code protection is constantly evolving. We at Microchip are committed to continuously improving the code protection features of our
products. Attempts to break Microchip’s code protection feature may be a violation of the Digital Millennium Copyright Act. If such acts
allow unauthorized access to your software or other copyrighted work, you may have a right to sue for relief under that Act.
Information contained in this publication regarding device
applications and the like is provided only for your convenience
and may be superseded by updates. It is your responsibility to
ensure that your application meets with your specifications.
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Microchip received ISO/TS-16949:2009 certification for its worldwide
headquarters, design and wafer fabrication facilities in Chandler and
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and India. The Company’s quality system processes and procedures
are for its PIC® MCUs and dsPIC® DSCs, KEELOQ® code hopping
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analog products. In addition, Microchip’s quality system for the design
and manufacture of development systems is ISO 9001:2000 certified.
QUALITY MANAGEMENT SYSTEM
CERTIFIED BY DNV
== ISO/TS 16949 ==
 2016 Microchip Technology Inc.
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The Microchip name and logo, the Microchip logo, AnyRate,
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ISBN: 978-1-5224-0827-7
DS20005550A-page 15
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India - Pune
Tel: 91-20-3019-1500
Japan - Osaka
Tel: 81-6-6152-7160
Fax: 81-6-6152-9310
Japan - Tokyo
Tel: 81-3-6880- 3770
Fax: 81-3-6880-3771
Korea - Daegu
Tel: 82-53-744-4301
Fax: 82-53-744-4302
Korea - Seoul
Tel: 82-2-554-7200
Fax: 82-2-558-5932 or
82-2-558-5934
Malaysia - Kuala Lumpur
Tel: 60-3-6201-9857
Fax: 60-3-6201-9859
Malaysia - Penang
Tel: 60-4-227-8870
Fax: 60-4-227-4068
Philippines - Manila
Tel: 63-2-634-9065
Fax: 63-2-634-9069
Germany - Karlsruhe
Tel: 49-721-625370
Germany - Munich
Tel: 49-89-627-144-0
Fax: 49-89-627-144-44
Italy - Milan
Tel: 39-0331-742611
Fax: 39-0331-466781
Italy - Venice
Tel: 39-049-7625286
Netherlands - Drunen
Tel: 31-416-690399
Fax: 31-416-690340
Poland - Warsaw
Tel: 48-22-3325737
Spain - Madrid
Tel: 34-91-708-08-90
Fax: 34-91-708-08-91
Sweden - Stockholm
Tel: 46-8-5090-4654
UK - Wokingham
Tel: 44-118-921-5800
Fax: 44-118-921-5820
Singapore
Tel: 65-6334-8870
Fax: 65-6334-8850
Taiwan - Hsin Chu
Tel: 886-3-5778-366
Fax: 886-3-5770-955
Taiwan - Kaohsiung
Tel: 886-7-213-7828
China - Wuhan
Tel: 86-27-5980-5300
Fax: 86-27-5980-5118
Taiwan - Taipei
Tel: 886-2-2508-8600
Fax: 886-2-2508-0102
China - Xian
Tel: 86-29-8833-7252
Fax: 86-29-8833-7256
Thailand - Bangkok
Tel: 66-2-694-1351
Fax: 66-2-694-1350
06/23/16
DS20005550A-page 16
 2016 Microchip Technology Inc.