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ADUM260N Datasheet, PDF (1/23 Pages) Analog Devices – High common-mode transient immunity: 100 kV/μs
Data Sheet
5.0 kV RMS, 6-Channel Digital Isolators
ADuM260N/ADuM261N/ADuM262N/ADuM263N
FEATURES
High common-mode transient immunity: 100 kV/μs
High robustness to radiated and conducted noise
Low propagation delay
13 ns maximum for 5 V operation
15 ns maximum for 1.8 V operation
150 Mbps maximum guaranteed data rate
Safety and regulatory approvals (pending)
UL recognition: 5000 V rms for 1 minute per UL 1577
CSA Component Acceptance Notice 5A
VDE certificate of conformity
DIN V VDE V 0884-10 (VDE V 0884-10):2006-12
VIORM = 849 V peak
CQC certification per GB4943.1-2011
Low dynamic power consumption
1.8 V to 5 V level translation
High temperature operation: 125°C
Fail-safe high or low options
16-lead, RoHS-compliant, wide body SOIC_IC package
APPLICATIONS
General-purpose multichannel isolation
Serial peripheral interface (SPI)/data converter isolation
Industrial field bus isolation
GENERAL DESCRIPTION
The ADuM260N/ADuM261N/ADuM262N/ADuM263N1 are
6-channel digital isolators based on Analog Devices, Inc., iCoupler®
technology. Combining high speed, complementary metal-oxide
semiconductor (CMOS) and monolithic air core transformer
technology, these isolation components provide outstanding
performance characteristics superior to alternatives such as
optocoupler devices and other integrated couplers. The maxi-
mum propagation delay is 13 ns with a pulse width distortion of
less than 4.5 ns at 5 V operation. Channel to channel matching
of propagation delay is tight at 4.0 ns maximum.
The ADuM260N/ADuM261N/ADuM262N/ADuM263N data
channels are independent and are available in a variety of
configurations with a withstand voltage rating of 5.0 kV rms
(see the Ordering Guide). The devices operate with the supply
voltage on either side ranging from 1.7 V to 5.5 V, providing
compatibility with lower voltage systems as well as enabling
voltage translation functionality across the isolation barrier.
FUNCTIONAL BLOCK DIAGRAMS
VDD1 1
VIA 2
VIB 3
VIC 4
VID 5
VIE 6
VIF 7
GND1 8
ADuM260N
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16 VDD2
15 VOA
14 VOB
13 VOC
12 VOD
11 VOE
10 VOF
9 GND2
Figure 1. ADuM260N Functional Block Diagram
VDD1 1
VIA 2
VIB 3
VIC 4
VID 5
VIE 6
VOF 7
GND1 8
ADuM261N
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16 VDD2
15 VOA
14 VOB
13 VOC
12 VOD
11 VOE
10 VIF
9 GND2
Figure 2 .ADuM261N Functional Block Diagram
VDD1 1
VIA 2
VIB 3
VIC 4
VID 5
VOE 6
VOF 7
GND1 8
ADuM262N
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16 VDD2
15 VOA
14 VOB
13 VOC
12 VOD
11 VIE
10 VIF
9 GND2
Figure 3. ADuM262N Functional Block Diagram
VDD1 1
VIA 2
VIB 3
VIC 4
VOD 5
VOE 6
VOF 7
GND1 8
ADuM263N
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16 VDD2
15 VOA
14 VOB
13 VOC
12 VID
11 VIE
10 VIF
9 GND2
Unlike other optocoupler alternatives, dc correctness is ensured
in the absence of input logic transitions. Two different fail-safe
options are available by which the outputs transition to a predeter-
mined state when the input power supply is not applied.
Figure 4. ADuM263N Functional Block Diagram
1 Protected by U.S. Patents 5,952,849; 6,873,065; 6,903,578; and 7,075,329. Other patents are pending.
Rev. 0
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