features +5v/+3.3v or +5v only cmos/ttl compatible high speed: 110 mbaud 2500vrms isolation (1 min) 2 ns typical pulse width distortion 4 ns typical propagation delay skew 10 ns typical propagation delay 30 kv/us typical transient immunity 2 ns channel to channel skew 8-pin pdip and 8-pin soic packages ul1577 approved (file # e207481) iec 61010-1 approved (report # 607057) isolation applications adcs and dacs digital fieldbus rs485 and rs422 multiplexed data transmission data interfaces board-to-board communication digital noise reduction operator interface ground loop elimination peripheral interfaces serial communication logic level shifting description nve's family of high-speed digital isolators are cmos devices created by integrating active circuitry and our gmr-based and patented* isoloop? technology. the IL711 and il712 are two channel versions of the world's fastest digital isolator with a 110 mbaud data rate. these devices offer true isolated logic integration in a level not previously available. all transmit and receive channels operate at 110 mbd over the full temperature and supply voltage range. the symmetric magnetic coupling barrier provides a typical propagation delay of only 10 ns and a pulse width distortion of 2 ns achieving the best specifications of any isolator device. typical transient immunity of 30 kv/s is unsurpassed. the IL711 has two transmit channels; the il712 has one transmit channel and one receive channel. the il712 operates in full duplex mode making it ideal for many field bus applications. profibus and rs485 configurations are achieved by combining the IL711/12 and the il710, which together meet the overall propagation delay specification. the IL711 and il712 are available in 8-pin pdip and 8-pin soic packages and performance is specified over the temperature range of -40c to +100c without any derating. functional diagram isoloop ? is a registered trademark of nve corporation * us patent number 5,831,426; 6,300,617 and others IL711/712 i so l oop ? nve corporation 11409 valley view road eden prairie, mn 55344-3617 usa telephone: (952) 829-9217 fax: (952) 829 -9189 internet: www.isoloop.com high speed dual digital isolator IL711 il712
IL711/712 i so l oop ? 2 recommended operating conditions parameters symbol min. max. units ambient operating temperature t a -40 100 o c supply voltage (3.0/5.0 v operation) v dd 1 ,v dd 2 3.0 5.5 volts supply voltage (5.0 v operation) v dd 1 ,v dd 2 4.5 5.5 volts logic high input voltage v ih 2.4 v dd volts logic low input voltage v il 0 0.8 volts minimum signal rise and fall times t ir ,t if 1 �p sec absolute maximum ratings parameters symbol min. max. units storage temperature t s -55 175 o c ambient operating temperature (1) t a -55 125 o c supply voltage v dd 1, v dd 2 -0.5 7 volts input voltage v i -0.5 v dd +0.5 volts output voltage v o -0.5 v dd +0.5 volts drive channel output current i o 10 ma lead solder temperature (10s) 280 o c esd 2kv human body model insulation specifications parameter condition min. typ. max. units barrier impedance >10 14 ||3 �:���_�_�� pf creepage distance (external) 7.036 ( pdip )mm 4.026 ( soic ) leakage current 240 v rms 0.2 �p a 60hz package characteristics parameter symbol min. typ. max. units test conditions capacitance (input-output) (5) c i - o 2 pf f = 1mhz thermal resistance ( pdip ) �t jct 150 o c/w thermocouple located at ( soic ) �t jct 240 o c/w center underside of package package power dissipation p pd 150 mw model pollution material max working package type degree group voltage 8Cpdip 8Csoic IL711-2, il712-2 ii iii 300 v rms �9 IL711-3, il712-3 ii iii 150 v rms �9 iec61010-1 tuv certificate numbers: b 01 07 44230 001 (pdip) b 01 07 44230 002 (soic) classification as table 1. ul 1577 component recognition program. file # e207481 rated 2500vrms for 1min. nve corporation 11409 valley view road eden prairie, mn 55344-3617 usa telephone: (952) 829-9217 fax: (952) 829 -9189 internet: www.isoloop.com
3 electrical specifications electrical specifications are t min to t max unless otherwise stated. parameter symbol 3.3 volt specifications 5 volt specifications units test condition s dc specifications min. typ. max. min. typ. max. quiescent supply current IL711 i dd 1 810 1015 �p a il712 1.5 2 2.5 3 ma quiescent supply current IL711 i dd 2 3.3 4 5 6 ma il712 1.5 2 2.5 3 ma logic input current i i -10 10 -10 10 �p a logic high output voltage v oh v dd -0.1 v dd v dd -0.1 v dd vi o =-20 �p a, v i =v ih 0.8*v dd v dd -0.5 0.8*v dd v dd -0.5 i o = -4 ma, v i =v ih logic low output voltage v ol 0 0.1 0 0.1 v i o = 20 �p a, v i =v il 0.5 0.8 0.5 0.8 i o = 4 ma, v i =v il switching specifications maximum data rate 100 110 100 110 mbd c l = 15 pf pulse width pw 10 10 ns propagation delay input to output (high to low) t phl 12 18 10 15 ns c l = 15 pf propagation delay input to output ( low to high) t plh 12 18 10 15 ns c l = 15 pf pulse width distortion (2) | tphl- tplh | pwd 2 3 2 3 ns c l = 15 pf propagation delay skew (3) t psk 4 6 4 6 ns c l = 15 pf output rise time (10-90%) t r 2 4 1 3 ns c l = 15 pf output fall time (10-90%) t f 2 4 1 3 ns c l = 15 pf transient immunity (output logic |cmh| 20 30 20 30 kv/ �p s vcm = 300v high or logic low) (4) |cml| channel to channel skew t csk 2 3 2 3 ns c l = 15 pf IL711/712 i so l oop ? nve corporation 11409 valley view road eden prairie, mn 55344-3617 usa telephone: (952) 829-9217 fax: (952) 829 -9189 internet: www.isoloop.com notes: 1. absolute maximum ambient operating temperature means the device will not be damaged if operated under these conditions. it does not guarantee performance. 2. pwd is defined as | t phl C t plh |. %pwd is equal to the pwd divided by the pulse width. 3. t psk is equal to the magnitude of the worst case difference in t phl and/or t plh that will be seen between units at 25 o c. 4. cm h is the maximum common mode voltage slew rate that can be sustained while maintaining v o > 0.8 v dd . cm l is the maximum common mode input voltage that can be sustained while maintaining v o < 0.8 v. the common mode voltage slew rates apply to both rising and falling common mode voltage edges. 5. device is considered a two terminal device: pins 1-4 shorted and pins 5-8 shorted.
IL711/712 i so l oop ? 4 nve corporation 11409 valley view road eden prairie, mn 55344-3617 usa telephone: (952) 829-9217 fax: (952) 829 -9189 internet: www.isoloop.com application notes: dynamic power consumption isoloop � devices achieve their low power consumption from the manner by which they transmit data across the isolation barrier. by detecting the edge transitions of the input logic signal and converting these to narrow current pulses, a magnetic field is created around the gmr wheatstone bridge. depending on the direction of the magnetic field, the bridge causes the output comparator to switch following the input logic signal. since the current pulses are narrow, about 2.5ns wide, the power consumption is independent of mark-to-space ratio and solely dependent on frequency. this has obvious advantages over optocouplers whose power consumption is heavily dependent on its on-state and frequency. the approximate power supply current per channel for power supply decoupling both power supplies to these devices should be decoupled with low esr 47 nf ceramic capacitors. for data rates in excess of 10mbd, use of ground planes for both gnd1 and gnd2 is highly recommended. capacitors should be located as close as possible to the device. signal status on start-up and shut down to minimize power dissipation, the input signals are differentiated and then latched on the output side of the isolation barrier to reconstruct the signal. this could result in an ambiguous output state depending on power up, shutdown and power loss sequencing. therefore, the designer should consider the inclusion of an initialization signal in his start-up circuit. initialization consists of toggling each channel either high then low or low then high, depending on the desired state. electrostatic discharge sensitivity this product has been tested for electrostatic sensitivity to the limits stated in the specifications. however, nve recommends that all integrated circuits be handled with appropriate care to avoid damage. damage caused by inappropriate handling or storage could range from performance degradation to complete failure. data transmission rates the reliability of a transmission system is directly related to the accuracy and quality of the transmitted digital information. for a digital system, those parameters which determine the limits of the data transmission are pulse width distortion and propagation delay skew . propagation delay is the time taken for the signal to travel through the device. this is usually different when sending a low-to-high than when sending a high-to-low signal. this difference, or error, is called pulse width distortion (pwd) and is usually in ns. it may also be expressed as a percentage: this figure is almost three times better than for any available optocoupler with the same temperature range, and two times better than any optocoupler regardless of published temperature range. the isoloop ? range of isolators surpasses the 10% maximum pwd recommended by profibus, and will run at almost 35 mb before reaching the 10% limit. propagation delay skew is the difference in time taken for two or more channels to propagate their signals. this becomes significant when clocking is involved since it is undesirable for the clock pulse to arrive before the data has settled. a short propagation delay skew is therefore critical, especially in high data rate parallel systems, to establish and maintain accuracy and repeatability. the isoloop ? range of isolators all have a maximum propagation delay skew of 6 ns, which is five times better than any optocoupler. the maximum channel to channel skew in the isoloop ? coupler is only 3 ns which is ten times better than any optocoupler. pwd% = maximum pulse width distortion (ns) x 100% signal pulse width (ns) for example: for data rates of 12.5 mb pwd% = 3 ns x 100% = 3.75% 80 ns
IL711/712 i so l oop ? 5 nve corporation 11409 valley view road eden prairie, mn 55344-3617 usa telephone: (952) 829-9217 fax: (952) 829 -9189 internet: www.isoloop.com applications rs-485 truth table ddeabr 10zzx 00zzx 11101 01010 isolated profibus / rs-485
6 IL711/712 i so l oop ? nve corporation 11409 valley view road eden prairie, mn 55344-3617 usa telephone: (952) 829-9217 fax: (952) 829 -9189 internet: www.isoloop.com timing diagram legend t plh propagation delay, low to high t phl propagation delay, high to low t pw minimum pulse width t r rise time t f fall time ir soldering profile ir soldering profile recommended profile shown. maximum temperature allowed on any profile is 260 c.
7 IL711/712 i so l oop ? nve corporation 11409 valley view road eden prairie, mn 55344-3617 usa telephone: (952) 829-9217 fax: (952) 829 -9189 internet: www.isoloop.com IL711-3 and il712-3 (small outline soic-8 package) IL711-2 and il712-2 (8-pin pdip package) ordering information: use the following format to order these devices il 71 1 -2 b tr7 bulk package blank = tube tr7 = 7 tape and reel tr13 = 13 tape and reel supply voltage blank = 3.3/5.0 vdc b = 5.0 vdc package -2 = pdip -3 = soic (0.15) base part number 711 = 2 drive channels 712 = 1 drive and 1 receive channel product family il = isolators valid part numbers il 711-2 il 711-2b il 711-3 il 711-3b il 711-3btr13 il 711-3btr7 il 711-3tr13 il 711-3tr7 il 712-2 il 712-2b il 712-3 il 712-3b il 712-3btr13 il 712-3btr7 il 712-3tr13 il 712-3tr7
nve corporation 11409 valley view road eden prairie, mn 55344-3617 usa telephone: (952) 829-9217 fax: (952) 829-9189 internet: www.nve.com e-mail: isoinfo@nve.com about nve nve corporation is a world leader in the practical commercialization of "spintronics," which many experts believe represents the next generation of microelectronics the successor to the transistor. unlike conventional electronics, which rely on electron charge, spintronics uses electron spin to store and transmit information. spintronics devices are smaller, faster, and more accurate, compared to charge-based microelectronics. it is the spin of electrons that causes magnetism. nve's products use proprietary spintronic materials called giant magnetoresistors (gmr). these materials are made of exotic alloys a few atoms thick, and provide very large signals (the "giant" in "giant magnetoresistor"). nve has the unique capability to combine leading edge gmr materials with integrated circuits to make high performance electronic components. we are pioneers in creating practical products using this revolutionary technology and introduced the world's first gmr products in 1994. we also license spintronics/magnetic random access memory (mram) designs to world-class memory manufacturers. our products include: digital signal isolators isolated bus transceivers magnetic field sensors magnetic field gradient sensors (gradiometer) digital magnetic field sensors. the information provided by nve corporation is believed to be accurate. however, no responsibility is assumed by nve corporation for its use, nor for any infringement of patents, nor rights or licenses granted to third parties, which may result from its use. no license is granted by implication, or otherwise, under any patent or patent rights of nve corporation. nve corporation does not authorize, nor warrant, any nve corporation product for use in life support devices or systems or other critical applications. the use of nve corporations products in such applications is understood to be entirely at the customer's own risk. specifications shown are subject to change without notice. isb-ds-001-IL711/2-f july 2002
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