ETC IR2171S

Preliminary Data Sheet No. PD60192-E
IR2171/IR2172 (S)
LINEAR CURRENT SENSING IC
Features
•
•
•
•
•
•
•
•
Product Summary
Floating channel up to +600V
Monolithic integration
Linear current feedback through shunt resistor
Direct digital PWM output for easy interface
Low IQBS allows the boot strap power supply
Independent fast overcurrent trip signal
High common mode noise immunity
Input overvoltage protection for IGBT short circuit
condition
VOFFSET
600Vmax
IQBS
Vin
1mA
Gain temp.drift
+/-260mVmax
20ppm/oC (typ.)
fo
40kHz (typ.)
• Open Drain outputs
Overcurrent trip
signal delay (IR2172)
1.5usec (typ)
Description
Overcurrent trip level
+/-260mV (typ.)
IR2171/IR2172 are monolithic current sensing IC
designed for motor drive applications. It senses the
motor phase current through an external shunt resistor,
converts from analog to digital signal, and transfers the
signal to the low side. IR’s proprietary high voltage isolation technology is implemented to enable the high
bandwidth signal processing. The output format is discrete PWM to eliminate need for the A/D input interface
for the IR2172. The dedicated overcurrent trip (OC) signal facilitates IGBT short circuit protection. The opendrain outputs make easy for any interface from 3.3V to
15V.
Block Diagram
15V
PWM Output
GND
Overcurrent
VCC
Packages
8-Lead SOIC
8-Lead PDIP
Up to 600V
V+
IR2171/ VIR2172 VB
COM
PO
NC (OC 2172)
VS
To Motor Phase
(Refer to Lead Assignments for correct pin
configuration). This/These diagram(s)
show electrical connections only. Please
refer to our Application Notes and
DesignTips for proper circuit board layout.
IR2171/IR2172
Absolute Maximum Ratings
Absolute maximum ratings indicate sustained limits beyond which damage to the device may occur. All voltage
parameters are absolute voltages referenced to COM, all currents are defined positive into any lead. The thermal
resistance and power dissipation ratings are measured under board mounted and still air conditions.
Symbol
Definition
Min.
Max.
Units
VS
High side offset voltage
-0.3
600
VBS
High side floating supply voltage
-0.3
25
VCC
Low side and logic fixed supply voltage
-0.3
25
VIN
Maximum input voltage between VIN+ and VIN-
-5
5
VPO
Digital PWM output voltage
COM -0.3
VCC +0.3
VOC
Overcurrent output voltage (IR2172)
COM -0.3
VCC +0.3
VIN-
VIN- input voltage (note 1)
VS -5
VB+ 0.3
dV/dt
Allowable offset voltage slew rate
—
50
8 lead SOIC
—
.625
8 lead PDIP
—
1.0
PD
RthJA
Package power dissipation @ TA ≤ +25°C
Thermal resistance, junction to ambient
8 lead SOIC
—
200
8 lead PDIP
—
125
TJ
Junction temperature
—
150
TS
Storage temperature
-55
150
TL
Lead temperature (soldering, 10 seconds)
—
300
V
V/ns
W
°C/W
°C
Note 1: Capacitors are required between VB and Vin-, and between VB and Vs pins when bootstrap power is used. The
external power supply, when used, is required between Vs and Vin-, and between VB and Vs pins.
Recommended Operating Conditions
The output logic timing diagram is shown in figure 1. For proper operation the device should be used within the recommended conditions.
Symbol
2
Definition
VB
High side floating supply voltage
VS
High side floating supply offset voltage
Min.
Max.
VS +13.0
VS +20
0.3
600
Units
VPO
Digital PWM output voltage
COM
VCC
VOC
Overcurrent output voltage
COM
VCC
V CC
Low side and logic fixed supply voltage
9.5
20
VIN
Input voltage between VIN+ and VIN-
-260
+260
mV
TA
Ambient temperature
-40
125
°C
V
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IR2171/IR2172
DC Electrical Characteristics
o
VCC = VBS = 15V, and T A = 25 C unless otherwise specified.
Symbol
Definition
VIN
Nominal input voltage range before saturation
Min. Typ. Max. Units Test Conditions
-260
—
260
—
—
—
10
|VIN+ _ VIN-|
Overcurrent trip positive input voltage
VOC+
VOC-
Overcurrent trip negative input voltage
—
260
-260
VOS
Input offset voltage
-10
0
∆ VOS/ ∆T A
Input offset voltage temperature drift
Gain (duty cycle % per VIN)
G
mV
VIN = 0V (Note 1)
—
25
—
µV/ C
157
162
167
%/V
o
max gain error=5%
(Note 2)
∆ G/ ∆ T A
Gain temperature drift
o
—
20
—
ppm/ C
ILK
Offset supply leakage current
—
—
50
µA
IQBS
Quiescent VBS supply current
Quiescent VCC supply current
—
1
2
—
—
0.5
Linearity (duty cycle deviation from ideal linearity
—
0.5
1
%
Linearity temperature drift
—
.005
—
%/oC
Digital PWM output sink current
20
—
—
VO = 1V
2
—
—
10
—
—
VO = 0.1V
VO = 1V
1
—
—
VO = 0.1V
I QCC
LIN
mA
VB = VS = 600V
VS = 0V
curve)
∆VLIN/ ∆TA
IOPO
OC output sink current (IR2172)
I OCC
mA
Note 1: ±10mV offset represents ±1.5% duty cycle fluctuation
Note 2: Gain = (full range of duty cycle in %) / (full input voltage range).
AC Electrical Characteristics
VCC = VBS = 15V, and T A = 25oC unless otherwise specified.
Symbol
Definition
Propagation delay characteristics
fo
Min. Typ. Max. Units Test Conditions
Carrier frequency output
35
41
47
kHz
Temperature drift of carrier frequency
—
500
—
ppm/oC
figure 1
VIN = 0 & 5V
Dmin
Minimum duty
—
7
—
%
VIN+=-260mV,VIN-=0V
Dmax
Maximum duty
—
93
—
∆f/∆TA
%
VIN+=+260mV,VIN-=0V
BW
fo bandwidth
15
kHz
VIN+ = 100mVpk -pk
sine wave, gain=-3dB
PHS
Phase shift at 1kHz
-10
o
VIN+ =100mVpk-pk
sine wave
tdoc
Propagation delay time of OC (IR2172)
1
1.5
—
twoc
Low true pulse width of OC (IR2172)
—
1
—
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µsec
3
IR2171/IR2172
Timing Waveforms
Duty=7%
Vin+= -260mV
Vin- = 0V
PO
Duty=93%
Vin+= +260mV
Vin- = 0V
PO
Carrier Frequency =
40kHz
Figure 1 Output waveform
+260mV
Vin
-260mV
OC
twoc
tdoc
Figure 2. OC Waveform (2172 only)
Application Hint:
Temperature drift of the output carrier frequency can be cancelled by measuring both a PWM period and the on-time
of PWM (Duty) at the same time. Since both periods vary in the same direction, computing the ratio between these
values at each PWM period gives consistent measurement of the current feedback over the temperature drift.
4
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IR2171/IR2172
Lead Definitions
Symbol Description
VCC
Low side and logic supply voltage
COM
Low side logic ground
VIN+
Positive sense input
VIN-
Negative sense input
VB
High side supply
VS
High side return
PO
Digital PWM output
OC
N.C.
Overcurrent output (negative logic) (IR2172 only)
No connection
Lead Assignment
1
VCC
2
PO
8 lead SOIC
VIN+
8
1
VCC
VIN-
7
2
PO
IR2171S
8
VIN-
7
IR2171
3
COM
VB
6
3
COM
VB
6
4
NC
VS
5
4
NC
VS
5
1
VCC
VIN+
8
1
VCC
VIN+
8
2
PO
VIN-
7
2
PO
VIN-
7
8 lead SOIC
8 lead PDIP
IR2172S
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8 lead PDIP
VIN+
IR2172
3
COM
VB
6
3
COM
VB
6
4
OC
VS
5
4
OC
VS
5
5
IR2171/IR2172
Case outlines
01-6014
01-3003 01 (MS-001AB)
8 Lead PDIP
D
DIM
B
5
A
FOOTPRINT
6
8
7
6
5
H
E
1
2
3
0.25 [.010]
4
A
6.46 [.255]
MIN
.0532
.0688
1.35
1.75
A1 .0040
3X 1.27 [.050]
e1
.0098
0.10
0.25
.013
.020
0.33
0.51
c
.0075
.0098
0.19
0.25
D
.189
.1968
4.80
5.00
E
.1497
.1574
3.80
4.00
e
.050 BASIC
0.25 [.010]
A1
1.27 BASIC
.025 BASIC
0.635 BASIC
H
.2284
.2440
5.80
6.20
K
.0099
.0196
0.25
0.50
L
.016
.050
0.40
1.27
y
0°
8°
0°
8°
K x 45°
A
C
8X b
8X 1.78 [.070]
MAX
b
e1
6X e
MILLIMETERS
MAX
A
8X 0.72 [.028]
INCHES
MIN
y
0.10 [.004]
8X L
8X c
7
C A B
NOTES:
1. DIMENSIONING & TOLERANCING PER ASME Y14.5M-1994.
2. CONTROLLING DIMENSION: MILLIMETER
3. DIMENSIONS ARE SHOWN IN MILLIMETERS [INCHES].
4. OUTLINE CONFORMS TO JEDEC OUTLINE MS-012AA.
8 Lead SOIC
5 DIMENSION DOES NOT INCLUDE MOLD PROTRUSIONS.
MOLD PROTRUSIONS NOT TO EXCEED 0.15 [.006].
6 DIMENSION DOES NOT INCLUDE MOLD PROTRUSIONS.
MOLD PROTRUSIONS NOT TO EXCEED 0.25 [.010].
7 DIMENSION IS THE LENGTH OF LEAD FOR SOLDERING TO
A SUBSTRATE.
01-6027
01-0021 11 (MS-012AA)
1/7/2003
6
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