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AZV3002S-13

型号:

AZV3002S-13

品牌:

DIODES[ DIODES INCORPORATED ]

页数:

11 页

PDF大小:

653 K

下载PDF手册
AZV3001, AZV3002  
Single/Dual Channel Low Voltage Push-Pull Output Comparators  
Description  
Pin Assignments  
AZV3001 and AZV3002 are single and dual channel comparators  
developed for new generation low-power comparator families for  
battery-powered devices and systems requiring low voltage operation.  
AZV3001  
VCC  
N.C.  
IN-  
1
2
3
6
5
4
OUT  
VEE  
The supply current each comparator typically consumes is 6µA to  
extend battery life. It is guaranteed to operate at a low voltage of 1.6V  
and is fully operational up to 5.5V. These features make the AZV3001  
and AZV3002 convenient for use in 1.8V, 3.0V and 5.0V systems, and  
are perfectly suitable for battery-powered devices from its low-power  
characteristics.  
IN+  
The AZV3001 and AZV3002 have complementary push-pull output  
stage comprised of P- and N-Channel MOSFET for each comparator  
capable of driving rail-to-rail output swing.  
Top View  
(X2-DFN1410-6)  
The whole family is packaged in miniaturized packaging to reduce the  
space needed on PCB boards. The AZV3001 is available in X2-  
DFN1410-6; the AZV3002 is available in U-FLGA1616-8 and SO-8.  
AZV3002  
OUT2  
IN2+  
IN2-  
Features  
Low Supply Current: 6µA (typical)  
Wide Supply Voltage Range: 1.6~5.5V  
Rail to Rail Input/ Output Performance  
Push-Pull Output Structure  
VCC  
VEE  
Propagation Delay: 0.8µs (typical)  
Low Input Bias Current: 1pA (typical)  
No Phase Inversion with Overdrive Input Signals  
Internal Hysteresis  
OUT1  
IN1-  
IN1+  
Top View  
X2-DFN1410-6, U-FLGA1616-8 and SO-8 Package: Available in  
“Green” Molding Compound (No Br. Sb.)  
Totally Lead-Free & Fully RoHS Compliant (Notes 1 & 2)  
Halogen and Antimony Free. “Green” Device (Note 3)  
(U-FLGA1616-8)  
8
7
VCC  
OUTPUT1  
INPUT1-  
INPUT1+  
GND  
1
2
3
4
Applications  
OUTPUT2  
Mobile Phones  
6
5
INPUT2-  
INPUT2+  
Tablets  
Battery Powered Devices  
Alarm and Security Systems  
Top View  
(SO-8)  
Notes:  
1. No purposely added lead. Fully EU Directive 2002/95/EC (RoHS) & 2011/65/EU (RoHS 2) compliant.  
2. See http://www.diodes.com/quality/lead_free.html for more information about Diodes Incorporated’s definitions of Halogen- and Antimony-free,  
"Green" and Lead-free.  
3. Halogen- and Antimony-free "Green” products are defined as those which contain <900ppm bromine, <900ppm chlorine (<1500ppm total Br + Cl)  
and <1000ppm antimony compounds.  
1 of 11  
www.diodes.com  
December 2015  
© Diodes Incorporated  
AZV3001/3002  
Document number: DS37616 Rev. 3 - 2  
AZV3001, AZV3002  
Pin Descriptions  
AZV3001  
Pin Name  
Pin Number  
Function  
VCC  
VEE  
IN+  
6
2
3
4
1
5
Supply Voltage  
Supply Voltage  
Non-Inverting Input  
Inverting Input  
IN-  
OUT  
N.C.  
Comparator Output  
No Connection  
AZV3002  
Pin Name  
Pin Number  
Function  
U-FLGA1616-8  
SO-8  
VCC  
VEE  
8
4
3
2
1
5
6
7
8
4
3
2
1
5
6
7
Supply Voltage  
Supply Voltage  
IN1+  
IN1-  
Non-Inverting Input of Comparator 1  
Inverting Input of Comparator 1  
Comparator 1 Output  
OUT1  
IN2+  
IN2-  
Non-Inverting Input of Comparator 2  
Inverting Input of Comparator 2  
Comparator 2 Output  
OUT2  
Functional Block Diagram  
VCC  
IN+  
Output  
IN-  
VEE  
Absolute Maximum Ratings (@TA = +25°C, unless otherwise specified.)  
Symbol  
Parameter  
Min  
Max  
Unit  
Supply Voltage  
Input Voltage  
-
6
V
VCC  
-0.3  
-
V
S
VI  
VCC+0.3  
Indefinite  
Output Short-Circuit Time  
Maximum Junction Temperature  
Storage Temperature  
tSC(O)  
Tj(max)  
-
+150  
+150  
°C  
-65  
°C  
TSTG  
X2-DFN1410-6  
315  
Thermal Resistance  
(Junction-to-Ambient)  
°C/W  
θJA  
U-FLGA1616-8  
SO-8  
306  
220  
150  
122  
80  
X2-DFN1410-6  
U-FLGA1616-8  
SO-8  
Thermal Resistance  
(Junction-to-Case)  
°C/W  
θJC  
2 of 11  
www.diodes.com  
December 2015  
© Diodes Incorporated  
AZV3001/3002  
Document number: DS37616 Rev. 3 - 2  
AZV3001, AZV3002  
DC Electrical Characteristics (VCC=1.6V to 5.5V, VEE=0V; VCM=0.5VCC unless otherwise specified.)  
+25°C  
Typ  
-40°C to +85°C  
Symbol  
Parameter  
Hysteresis Voltage  
Conditions  
Min  
Max  
Min  
Max  
Units  
-
6
9
13  
-
-
-
mV  
mV  
mV  
mV  
V
VHYST  
20  
-
+30  
-
-
+30  
-
VCC=1.3V  
-
-30  
-
0.5  
-30  
-
Offset Input Voltage  
VI(offset)  
3
VCC=1.3V  
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
1.24  
1.55  
2.85  
5.33  
0.05  
0.04  
0.14  
0.2  
IO = -0.5mA; VCC = 1.3V  
IO = -0.5mA; VCC = 1.6V  
IO = -3mA; VCC = 3.0V  
IO = -5mA; VCC = 5.5V  
IO = -0.5mA; VCC = 1.3V  
IO = -0.5mA; VCC = 1.6V  
IO = -3mA; VCC = 3.0V  
IO = -5mA; VCC = 5.5V  
1.35  
2.7  
V
High-Level Output Voltage  
VOH  
V
5.2  
-
V
V
-
-
-
-
0.25  
0.3  
V
Low-Level Output Voltage  
Common-Mode Voltage  
VOL  
V
0.3  
-
V
VEE to  
VCC  
V
VCM  
VCC = 1.3V to 5.5V  
-
-
-
-
-
-
-
-
-
-
-
VCC = 5.5V;  
VO = VEE or VCC  
Output Short-Circuit Current  
Common-Mode Rejection Ratio  
Power Supply Rejection Ratio  
68  
70  
80  
mA  
dB  
dB  
IOS  
CMRR  
VCM = VCC  
PSRR  
IIB  
45  
VCC = 1.95V  
-
-
-
-
-
-
-
Input Bias Current  
-
-
-
1
6
9
-
pA  
µA  
µA  
Supply Current AZV3001  
Supply Current AZV3002  
9
ICC  
12  
AC Electrical Characteristics (VCC=1.6V to 5.5V, VEE=0V; VCM=0.5VCC unless otherwise specified.)  
Symbol  
tpd  
Parameter  
Propagation Delay  
Conditions  
20mV Overdrive; CL=15pF  
VCC=5.5V; CL-50pF  
Min  
Typ  
Max  
Unit  
0.8  
µs  
High to Low Output Transition Time  
Low to High Output Transition Time  
10  
10  
ns  
ns  
tTHL  
tTLH  
VCC=5.5V; CL=50pF  
3 of 11  
www.diodes.com  
December 2015  
© Diodes Incorporated  
AZV3001/3002  
Document number: DS37616 Rev. 3 - 2  
AZV3001, AZV3002  
Performance Characteristics  
6
5
10  
9
8
7
6
5
4
3
2
1
0
TA=25OC  
VIN-=VCC/2  
4
3
2
1
0
Output High  
VIN+: Rising  
VIN+: Falling  
Output Low  
VCC=5.5V  
VEE=0  
TA=25OC  
Single Comparator  
2.70  
2.72  
2.74  
2.76  
2.78  
2.80  
1
2
3
4
5
Input Voltage -VIN+ (V)  
Supply Voltage (V)  
Figure 1 Input Hysteresis Voltage  
Figure 2 Supply Current vs. Supply Voltage  
10  
10  
8
9
8
7
6
5
4
3
2
1
0
Output Low  
Output High  
TA=-40OC  
TA=25OC  
TA=85OC  
TA=-40OC  
TA=25OC  
TA=85OC  
6
4
2
Single Comparator  
Single Comparator  
1.0  
1.5  
2.0  
2.5  
3.0  
3.5  
4.0  
4.5  
5.0  
5.5  
6.0  
0
Supply Voltage (V)  
1.0  
1.5  
2.0  
2.5  
3.0  
3.5  
4.0  
4.5  
5.0  
5.5  
6.0  
Supply Voltage (V)  
Figure 3 Supply Current vs. Supply Voltage  
Figure 4 Supply Current vs. Supply Voltage  
10  
9
8
7
6
5
4
3
2
1
0
10  
9
8
7
6
5
4
3
2
1
0
Output Low  
Output High  
VCC=1.6V  
VCC=3.3V  
VCC=5.0V  
VCC=1.6V  
VCC=3.3V  
VCC=5.0V  
No Load  
Single Comparator  
No Load  
Single Comparator  
-40  
-20  
0
20  
40  
60  
80  
-40  
-20  
0
20  
40  
60  
80  
Temperature (OC)  
Temperature (OC)  
Figure 5 Supply Current vs. Temperature  
Figure 6 Supply Current vs. Temperature  
4 of 11  
www.diodes.com  
December 2015  
© Diodes Incorporated  
AZV3001/3002  
Document number: DS37616 Rev. 3 - 2  
AZV3001, AZV3002  
Performance Characteristics (continued)  
30  
VCC=5.5V  
VEE=0  
VEE=0  
TA=25OC  
VCM=VCC/2  
14  
12  
10  
8
25  
20  
15  
10  
5
TA=85OC  
TA=25OC  
TA=-40OC  
6
0
0
1
2
3
4
5
1.0  
1.5  
2.0  
2.5  
3.0  
3.5  
4.0  
4.5  
5.0  
5.5  
Input Common Mode Voltage (V)  
Supply Voltage (V)  
Figure 7 Input Hysteresis Voltage  
Figure 8 Input Hysteresis Voltage  
VCC=5.0V  
VCC=3.0V  
VCC=1.6V  
1
VCC=5.0V  
VCC=3.0V  
VCC=1.6V  
1
0.1  
0.1  
0.01  
VEE=0  
0.01  
VEE=0  
0.1  
1
10  
100  
0.1  
1
10  
100  
Output Sink Current (mA)  
Output Source Current (mA)  
Figure 9 Output Voltage vs. Output Source Current  
Figure 10 Output Voltage vs. Output Sink Current  
600  
500  
400  
300  
200  
100  
0
VOD=100mV  
CL=10pF, Cprobe=9.5pF  
tPLH  
VREF=VCC/2  
tPHL  
100  
10  
1
VCC=1.6V  
VCC=2.7V  
VCC=5.0V  
VEE=0  
10  
100  
1k  
10k  
100k  
1M  
1.5  
2.0  
2.5  
3.0  
3.5  
4.0  
4.5  
5.0  
5.5  
Output Transition Frequency (Hz)  
Supply Voltage (V)  
Figure 11 Propagation Delay vs. Supply Voltage  
Figure 12 Supply Current vs. Transition Frequency  
5 of 11  
www.diodes.com  
December 2015  
© Diodes Incorporated  
AZV3001/3002  
Document number: DS37616 Rev. 3 - 2  
AZV3001, AZV3002  
Application Information  
Description  
The AZV3001/2 are single and dual low-voltage, low-power comparators. These devices are designed for rail-to-rail input and output  
applications. The AZV3001 device consumes only 6µA supply current while achieving a typical propagation delay 0.8µS under 20mV input  
overdrive condition. These family comparators are guaranteed to operate at a low supply voltage range of 1.6V to 5.5V.  
The AZV3001 /2 series has a typical internal hysteresis of 9.0mV. This allows for greater noise immunity and clean output switching.  
The Output Stage  
The AZV3001 and AZV3002 feature a push-pull output, which have a complementary P- and N-Channel output stage. When the output  
switches, there is a direct patch between VCC and VEE, causing increased output sinking or sourcing current during the transition. Following  
the transition, the output current decreases and supply current returns to 6µA, thus maintaining low power consumption.  
Many comparators consume more current during switching than during steady-state operation. However, with this family of comparators, the  
supply current change during an output transition is extremely small. The graph of Supply Current vs. Output Transition Frequency shows the  
minimal supply current increase as the output switching frequency approaches 1KHz. In battery- powered applications, this characteristic  
results in a substantial increase in battery life.  
VCC  
IN+  
Output  
IN-  
VEE  
Figure 13 AZV3001/2 Complementary Output Configuration  
Internal Input Hysteresis Voltage (VHYST  
)
Many comparators oscillate in the linear region of operation because of noise or undesired parasitic feedback. This tends to occur when the  
voltage on one input is equal to, or very close to the voltage on the other input. The AZV3001/2 have internal 9mV (Typ.) hysteresis to counter  
parasitic effects and noise.  
The hysteresis in a comparator creates two trip points: one for the rising input voltage (VHYST+) and one for the falling input voltage (VHYST-).  
The difference between the trip points is the hysteresis (VHYST). When the comparator’s input voltages are equal, the hysteresis effectively  
causes one comparator input to move quickly past the other, thus taking the input out of the region where oscillation occurs. Figure 1  
illustrates the case in which VIN- has a fixed voltage applied, and VIN+ is varied. If the inputs were reversed, the figure would be the same,  
except with an inverted output.  
VCC  
VOUT  
VEE  
Falling  
VHYST+  
VHYST  
VIN-  
VHYST-  
Rising  
VIN+  
Figure 14 AZV3001 / 2 Internal Input Hysteresis Voltage  
6 of 11  
www.diodes.com  
December 2015  
© Diodes Incorporated  
AZV3001/3002  
Document number: DS37616 Rev. 3 - 2  
AZV3001, AZV3002  
Application Information (continued)  
External Hysteresis Application  
The AZV3001 and AZV3002 have a hysteresis transfer curve that is a function of the following three components:  
VTH: the actual set voltage or threshold trip voltage  
VOS: the internal offset voltage between VIN+ and VIN-. This voltage is added to VTH to form the actual trip point at which the comparator  
must respond in order to change output states.  
VHYST: internal hysteresis (or trip window) that is designed to produce comparator sensitivity to noise.  
VTH+VOS+VHYST  
VTH+VOS-VHYST  
VTH+VOS  
Figure 15 AZV3001 Hysteresis Transfer Curve  
VCC  
VIN-  
-
VCC  
VOUT  
R1  
1MΩ  
AZV3001  
VREF=2.5V  
-
VA  
VOUT  
+
AZV3001  
R1 1MΩ  
VA  
VIN  
+
R3 1MΩ  
R2  
1MΩ  
R2 1MΩ  
Figure 16. Inverting Comparator With Hysteresis  
No Phase Inversion  
Figure 17. Non-Inverting Comparator With Hysteresis  
AZV3001 and AZV3002 are rail-to-rail input comparators, with the input common-mode voltage range reaching to the supply rails for both  
positive and negative supplies. The AZV3001 and AZV3002 are designed to prevent phase inversion when the input pins exceed the supply  
voltage. Figure 18 shows the AZV3001/2 response when input voltages exceed the supply, resulting in no phase inversion.  
VCC=3.0V  
VIN+  
VIN-  
VOUT  
VOUT  
VIN-  
VIN+  
Figure 18 Comparator Response to Input Voltage No Phase Inversion  
7 of 11  
www.diodes.com  
December 2015  
© Diodes Incorporated  
AZV3001/3002  
Document number: DS37616 Rev. 3 - 2  
AZV3001, AZV3002  
Ordering Information  
AZV300X XXX - 7  
Packing  
Output Channel  
Package  
1 : Single Channel  
2 : Dual Channel  
FZ4 : X2-DFN1410-6  
RL : U-FLGA1616-8  
S : SOP-8L  
7/13 : Tape & Reel  
7”/13Tape and Reel  
Package  
Code  
Part Number  
AZV3001FZ4-7  
Packaging  
Quantity  
Part Number Suffix  
FZ4  
RL  
S
X2-DFN1410-6  
U-FLGA1616-8  
SO-8  
5,000/Tape & Reel  
3,000/Tape & Reel  
2500/Tape & Reel  
-7  
-7  
AZV3002RL-7  
AZV3002S-13  
-13  
Note: 4. Pad layout as shown on Diodes Inc. suggested pad layout document AP02001, which can be found on our website at  
http://www.diodes.com/datasheets/ap02001.pdf.  
Marking Information  
(1) X2-X2-DFN1410-6  
(Top View)  
XX : Identification Code  
Y : Year : 0~9  
XX  
W : Week : A~Z : 1~26 week;  
a~z : 27~52 week; z represents  
52 and 53 week  
Y W X  
X : Internal Code  
Part Number  
AZV3001FZ4  
Package  
Identification Code  
X2-DFN1410-6  
YA  
(2) U-FLGA1616-8  
(Top View)  
XX : Identification Code  
Y : Year : 0~9  
XX  
W : Week : A~Z : 1~26 week;  
a~z : 27~52 week; z represents  
52 and 53 week  
Y W X  
X : Internal Code  
Part Number  
AZV3002RL  
Package  
Identification Code  
U-FLGA1616-8  
XD  
(3) SO-8  
(Top View)  
8
7
6
5
Logo  
Part Number  
YY : Year : 14,15,16~  
WW : Week : 01~52; 52  
represents 52 and 53 week  
X X : Internal Code  
AZV3002  
YY WW X X  
2
3
4
1
8 of 11  
www.diodes.com  
December 2015  
© Diodes Incorporated  
AZV3001/3002  
Document number: DS37616 Rev. 3 - 2  
AZV3001, AZV3002  
Package Outline Dimensions (All dimensions in mm.)  
Please see AP02002 at http://www.diodes.com/datasheets/ap02002.pdf for the latest version.  
(1) Package Type: X2-DFN1410-6  
A3  
A1  
X2-DFN1410-6  
Dim  
A
A1  
A3  
b
D
E
e
L
Min  
––  
0.00  
––  
Max  
0.40  
0.05  
––  
Typ  
0.39  
0.02  
0.13  
0.20  
1.40  
1.00  
0.50  
0.30  
0.10  
A
Seating Plane  
0.15  
1.35  
0.95  
––  
0.25  
1.45  
1.05  
––  
D
e
(Pin #1 ID)  
0.25  
––  
0.35  
––  
Z
Z1  
L(6x)  
0.045 0.105 0.075  
All Dimensions in mm  
E
Z1(4x)  
Z(4x)  
b(6x)  
(2) U-FLGA1616-8  
U-FLGA1616-8  
A3  
Dim  
A
A1  
A3  
b
b2  
D
E
Min  
0.45  
0.00  
-
Max  
0.55  
0.05  
-
Typ  
0.50  
0.02  
0.176  
0.20  
0.30  
1.60  
1.60  
A1  
A
Seating Plane  
0.15  
-
0.25  
-
D
1.55  
1.55  
1.65  
1.65  
( Pin #1 ID)  
1
e
0.50BSC  
L
La  
z
z1  
z2  
0.25  
0.35  
0.30  
0.15  
0.20  
0.10  
0.09  
-
-
-
-
-
-
-
-
z2  
b2  
La  
E
8
L( 8x)  
All Dimensions in mm  
z1  
e
z
b( 8x)  
(3) SO-8  
SO-8  
Dim  
A
A1  
A2  
A3  
b
Min  
-
0.10  
1.30  
0.15  
0.3  
Max  
1.75  
0.20  
1.50  
0.25  
0.5  
E1  
E
Gauge Plane  
Seating Plane  
D
E
E1  
e
4.85  
5.90  
3.85  
4.95  
6.10  
3.95  
A1  
L
Detail ‘A’  
1.27 Typ  
h
L
-
0.35  
0.82  
8  
7°~9°  
h
0.62  
0  
°
45  
Detail ‘A’  
All Dimensions in mm  
A2  
A3  
A
b
e
D
9 of 11  
www.diodes.com  
December 2015  
© Diodes Incorporated  
AZV3001/3002  
Document number: DS37616 Rev. 3 - 2  
AZV3001, AZV3002  
Suggested Pad Layout  
Please see AP02001 at http://www.diodes.com/datasheets/ap02001.pdf for the latest version.  
(1) Package Type: X2-DFN1410-6  
X1  
Value  
(in mm)  
Dimensions  
C
C
G
0.500  
0.250  
0.250  
1.250  
0.525  
1.250  
Y
X
Y1  
X1  
Y
Y1  
1
G
X
(2)U-FLGA1616-8  
X4  
X3  
Y1( 6x)  
Value  
(in mm)  
0.500  
0.700  
0.210  
0.400  
0.300  
0.500  
1.300  
1.700  
1.400  
0.300  
0.500  
1.720  
Dimensions  
C
G
G1  
X
X1  
X2  
X3  
X4  
X5  
Y
X2( 2x)  
Y( 2x)  
X1( 5x)  
Y2  
G
G1  
Y1  
Y2  
C
X
X5  
(3)SO-8  
X
Dimensions Value (in mm)  
X
Y
C1  
C2  
0.60  
1.55  
5.4  
C1  
1.27  
C2  
Y
10 of 11  
www.diodes.com  
December 2015  
© Diodes Incorporated  
AZV3001/3002  
Document number: DS37616 Rev. 3 - 2  
AZV3001, AZV3002  
IMPORTANT NOTICE  
DIODES INCORPORATED MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARDS TO THIS DOCUMENT,  
INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR  
PURPOSE (AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION).  
Diodes Incorporated and its subsidiaries reserve the right to make modifications, enhancements, improvements, corrections or other changes  
without further notice to this document and any product described herein. Diodes Incorporated does not assume any liability arising out of the  
application or use of this document or any product described herein; neither does Diodes Incorporated convey any license under its patent or  
trademark rights, nor the rights of others. Any Customer or user of this document or products described herein in such applications shall  
assume all risks of such use and will agree to hold Diodes Incorporated and all the companies whose products are represented on Diodes  
Incorporated website, harmless against all damages.  
Diodes Incorporated does not warrant or accept any liability whatsoever in respect of any products purchased through unauthorized sales  
channel.  
Should Customers purchase or use Diodes Incorporated products for any unintended or unauthorized application, Customers shall indemnify  
and hold Diodes Incorporated and its representatives harmless against all claims, damages, expenses, and attorney fees arising out of,  
directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized application.  
Products described herein may be covered by one or more United States, international or foreign patents pending. Product names and  
markings noted herein may also be covered by one or more United States, international or foreign trademarks.  
This document is written in English but may be translated into multiple languages for reference. Only the English version of this document is  
the final and determinative format released by Diodes Incorporated.  
LIFE SUPPORT  
Diodes Incorporated products are specifically not authorized for use as critical components in life support devices or systems without the  
express written approval of the Chief Executive Officer of Diodes Incorporated. As used herein:  
A. Life support devices or systems are devices or systems which:  
1. are intended to implant into the body, or  
2. support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided in the  
labeling can be reasonably expected to result in significant injury to the user.  
B. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to cause  
the  
failure of the life support device or to affect its safety or effectiveness.  
Customers represent that they have all necessary expertise in the safety and regulatory ramifications of their life support devices or systems,  
and acknowledge and agree that they are solely responsible for all legal, regulatory and safety-related requirements concerning their products  
and any use of Diodes Incorporated products in such safety-critical, life support devices or systems, notwithstanding any devices- or systems-  
related information or support that may be provided by Diodes Incorporated. Further, Customers must fully indemnify Diodes Incorporated  
and its representatives against any damages arising out of the use of Diodes Incorporated products in such safety-critical, life support devices  
or systems.  
Copyright © 2015, Diodes Incorporated  
www.diodes.com  
11 of 11  
www.diodes.com  
December 2015  
© Diodes Incorporated  
AZV3001/3002  
Document number: DS37616 Rev. 3 - 2  
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