4707 dey road liverpool, n.y. 13088 m.s.kennedy corp. (315) 701-6751 features: ultra low quiescent current - 12ma for high voltage stage 110v peak to peak output voltage swing slew rate - 5000v/s typical @ 100vpp gain bandwidth product - 550 mhz typical full power output frequency - 9 mhz typical output current - 250ma peak adjustable vhv power supply minimizes power dissipation compact package offers superior power dissipation 610 +vhv +vsc output case/ground -vsc -vcc 1 2 3 4 5 6 12 11 10 9 8 7 comp +vcc ground n/c -input n/c wideband high voltage amplifier high resolution crt monitor ultra high performance video processing crt beam intensity control varactor tuned vco driver automatic test equipment pin-out information typical applications the msk 610 is a high voltage very wideband amplifier designed to provide large voltage swings at high slew rates in wideband systems. the true inverting op-amp topology employed in the msk 610 provides excellent d.c. specifications such as input offset voltage and input bias current. these attributes are important in amplifiers that will be used in high gain configurations since the input error voltages will be multiplied by the system gain. the msk 610 achieves impressive slew rate specifications by employing a feed forward a.c. path through the amplifier, however, the device is internally configured in inverting mode to utilize this benefit. internal compensation for gains of -5v/v or greater keeps the msk 610 stable in this range. the msk 610 is packaged in a space efficient, hermetically sealed, 12 pin power dual in line package that has a high thermal conductivity for efficient device cooling. description: equivalent schematic mil-prf-38534 qualified iso 9001 certified by dscc very wide bandwidth high voltage amplifier rev. a 8/00 1
@ +v cc @ -v cc @ +v hv @ -v sc v in =0 v cc +v hv , +v sc -v sc f=1khz f=1khz v 0 =100vpp v 0 =1vpp v 0 =100vpp f=1khz a v =-10v/v v o =50vpp a v =-10v/v v o =50vpp +130v dc -18v dc v cc 18v dc 30c/w -65c to +150c 300c -40c to +125c -55c to +125c 150c absolute maximum ratings t st t ld t c t j storage temperature range lead temperature range (10 seconds) case operating temperature MSK610 MSK610b junction temperature +v hv, +v sc -v sc v in v cc q jc supply voltage supply voltage input voltage range supply voltage (input stage) thermal resistance (output devices) static input offset voltage drift dynamic characteristics output voltage swing peak output current full power output frequency unity gain bandwidth slew rate voltage gain settling time to 1% settling time to 0.1% group a subgroup 1,2,3 1,2,3 1,2,3 1,2,3 1 2,3 1 2,3 2,3 - - - 4 4 4 4 4 4 - - typ. 1.0 12 12 12 1.0 2.0 50 100 10 15 120 -15 110 250 9 100 5000 100 200 500 min. - - - - - - - - - 12 50 -18 100 200 2 80 4000 80 - - max. 2.0 30 25 25 5.0 10.0 250 500 50 18 130 0 - - - - - - - - min. - - - - - - - - - 12 50 -18 100 200 1 80 4000 80 - - max. 2.0 35 28 28 10 - 500 - - 18 130 0 - - - - - - - - msk 610b msk 610 parameter test conditions electrical specifications 1 units typ. 1.0 12 12 12 1.0 2.0 50 100 10 15 120 -15 110 250 9 100 5000 100 200 500 quiescent current input offset voltage input bias current v in =0 2 2 2 2 2 2 power supply range 2 6 ma ma ma ma mv mv na na v/c v v v vpp ma mhz mhz v/s db ns ns 1 2 3 4 5 6 unless otherwise specified, v cc =15v dc , +v hv =+v sc =+120v dc , -v sc =-15v dc , c l =8pf (probe capacitance) and a v =10v/v. this parameter is guaranteed by design but not tested. typical parameters are representative of actual device performance but are for reference only. industrial grade devices shall be tested to subgroups 1 and 4 unless otherwise specified. military grade devices ('b' suffix) shall be 100% tested to subgroups 1,2,3 and 4. subgroup 1,4 t c =+25c subgroup 2,5 t j =+125c subgroup 3,6 t a =-55c the output voltage swing is typically within 8 volts of each v sc supply setting. notes: v in =0 2 rev. a 8/00 2
application notes current limit figure 2 is an active short circuit protection scheme for the msk 610. the following formula may be used for setting cur- rent limit: current limit ? 0.6v / rsc r base must be selected based on the value of +v hv and -v cc as follows: r base = ((+v hv - (-v cc )) - 1.2v) / 4ma this formula guarantees that q2 and q4 will always have suf- ficient base current to be in operation. this circuit can be made tolerant of high frequency output current spikes with the addi- tion of c sc . the corresponding time constant would be: t = (r sc ) (c sc ) a common value for c sc is approximately 1000pf. if current limit is unnecessary, short pin 7 to pin 8 and pin 11 to pin 12. pin 8 can be tied to ground if swing through zero is not desired. 604 w w w w w 301 w w w w w 100 w w w w w -r in -10v/v -20v/v -50v/v c f 0.5-2pf n/a n/a 6.04k w w w w w 6.04k w w w w w 5k w w w w w voltage gain r f table 1 feed forward topology the msk 610 employs a circuit topology known as "feed forward". this inverting configuration allows the user to real- ize the excellent d.c. input characteristics of a differential am- plifier without losing system bandwidth. the incoming signal is split at the input into its a.c. and d.c. component. the d.c. component is allowed to run through the differential amplifier where any common mode noise is rejected. the a.c. compo- nent is "fed forward" to the output section through a very high speed linear amplifier where it is mixed back together with the d.c. component. the result is a composite amplifier with most of the benefits of a differential amplifier without the loss in system bandwidth. figure 1 figure 2 the positive and negative high voltage supplies on the msk 610 can be adjusted to reduce power dissipation. the output of the msk 610 will typically swing to within 8v of either output voltage power supply rail. therefore, if the system in question only needs the output of the amplifier to swing 0 to 40v peak, the power supply rails could be set to -15v and +50v safely. for best performance, the minimum value of +v hv should be +50v dc . the -v sc pin may be directly con- nected to ground if the output does not need to swing through zero volts. the high voltage and low voltage power supplies should be decoupled as shown in figure 1. high voltage supplies since the msk 610 is a high voltage amplifier, it is com- monly used in circuits employing large gains. therefore, the internal compensation was chosen for gains of -5v/v or greater. in circuits running at gains of less than -5v/v, the user can further compensate the device by adding compensation net- works at the input or feedback node. pin 1 (comp) should be bypassed with a 0.1uf ceramic capacitor to +v hv for all appli- cations. internal compensation transition time optimization of the msk 610 follows the same basic rules as most any other amplifier. best transition times will be realized with minumum load capacitance, minimum ex- ternal feedback resistance and lowest circuit gain. transition times will degrade if the output is driven too close to either supply rail. feedback and input resistor values will affect tran- sition time as well. see figure 1 and table 1 for recommended component values. transition times rev. a 8/00 3
ordering information screening level MSK610 industrial the information contained herein is believed to be accurate at the time of printing. msk reserves the right to make changes to its products or specifications without notice, however, and assumes no liability for the use of its products. mechanical specifications m.s. kennedy corp. 4707 dey road, liverpool, new york 13088 phone (315) 701-6751 fax (315) 701-6752 www.mskennedy.com MSK610b all dimensions are 0.010 inches unless otherwise labeled part number rev. a 8/00 note: esd triangle indicates pin 1. military-mil-prf-38534 4
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