features: ? manufactured using space qualifed rh1086 die ? total dose hardened to 100 krads(si) (method 1019.7 condition a) ? low dropout voltage ? internal short circuit current limit ? output voltage is adjustable with 2 external resistors ? output current capability to 1.5 amps ? internal thermal overload protection ? non rad hard edu devices available ? available to dscc smd 5962r09211 description: the msk5970rh ofers low dropout voltage while ofering radiation tolerance for space applications. this, combined with the low jc, allows increased output current while providing exceptional device efciency. because of the increased efciency, a small hermetic 3 pin package can be used providing maximum performance while occupying minimal board space. output voltage is selected by the user through the use of 2 external resistors. additionally, the regulator ofers internal short circuit current and thermal limiting, which allows circuit protection and eliminates the need for external components and excessive derating. the msk5970rh is packaged in two space saving options; the 3 pin power surface mount ceramic smd-1 or the to-257 package with 3 lead form options: straight, up and down. 1 to-257 smd-1 3 pad ceramic rad hard positive, 1.5 amp, low dropout adj voltage regulator mil-prf-38534 and 38535 certified facility 5970rh equivalent schematic typical applications pin-out information to-257 1 adj 2 vout 3 vin case = isolated smd-1 1 adj 2 vin 3 vout lid = isolated ? high efciency linear regulator ? constant voltage/current regulators ? system power supplies ? switching power supply post regulators 8548-135 rev. j 9/17
2 8548-135 rev. j 9/17 absolute maximum ratings electrical specifications v in input voltage (wrt vout..................................25v t st storage temperature range...........-65c to +150c p d power dissipation..........................internally limited t ld lead temperature range i out output current...................................................1.5a (10 seconds)...................................................300c t j junction temperature...................................+150c t c case operating temperature range msk5970rh..................................-40c to +85c msk5970edu................................-40c to +85c msk5970k/hrh..........................-55c to +125c esd rating...........................................................3a parameter test conditions 3 9 group a subgroup msk5970k/hrh msk5970rh/edu units min. typ. max. min. typ. max. reference voltage i out = 10ma vin = vout +3v 1 1.238 1.250 1.262 1.225 1.250 1.270 v 2, 3 1.225 1.250 1.270 - - - v post irradiation 1 1.205 1.250 1.270 1.205 1.250 1.270 v dropout voltage 10ma i out 1.5a ? vout = 1% 1 - 1.3 1.575 - 1.3 1.6 v line regulation i out = 10 ma 1 -0.5 0.1 0.5 - 0.1 0.6 % (vout +3v) vin (vout +15v) 2, 3 -0.75 0.2 0.75 - - - % load regulation vin = vout +3v 1 -1.0 0.2 1.0 - 0.2 2.0 % 10ma i out 1.5a 2, 3 -2.0 0.3 2.0 - - - % short circuit current 7 vin = vout +5v 1 1.5 2.0 - 1.5 2.0 - a ripple rejection 2 i out = 1.5a; c out = 25f; f = 120hz - 60 75 - 60 75 - db thermal resistance 2 junction to case @ 125c to-257 package - - 5.3 5.7 - 5.3 5.7 c/w thermal resistance 2 junction to case @ 125c smd-1 package - - 4.7 5.1 - 4.7 5.1 c/w notes: 1 output is decoupled to ground using 22f minimum low esr capacitors unless otherwise specifed. 2 guaranteed by design but not tested. typical parameters are representative of actual device performance but are for reference only. not applicable to post irradiation performance. 3 all o utput parameters are tested using a low duty cycle pulse to maintain tj = tc. 4 industrial grade and devices shall be tested to subgroup 1 unless ot herwise specifed. 5 milita ry grade devices ("h" and "k" sufx) shall be 100% tested to subgroups 1,2 and 3. 6 subgroup 1 t a = +25c 2 t a = +125c 3 t a = -55c 7 the output current limit function provides protection from transient overloads but it may exceed the maximum continuous rating. continuous operation in current limit may damage the device. for compliance with mil-std 883 revision c current density specifcations, the msk5970rh is derated to 1 amp. 8 cont inuous operation at or above absolute maximum ratings may adversely efect the device performance and/or life cycle. 9 pre and post irradiation limits at 25c, up to 100krad tid, are identical unless otherwise specifed. post irradiation performance is guaranteed by design with a 2x radiation design margin. 10 reference dscc smd 5962r09211 for electrical specifcation for devices purchased as such. 11 internal solder refow temperature is 180c, do not exceed. 12 msk5970edu does not use rad hard die, post irradiation specifcations are not applicable. 11 12 8 7
bypass capacitors minimum requirement for output capacitance is 10uf, low esr tantalum. a 22 f low esr (0.5-2 ohm) tantalum capacitor attached close to the regulator's output will ensure stability in most applications. this will efectively lower the regulator's output impedance, increase transient response and eliminate any oscillations that are normally associated with low dropout regulators. additional bypass capacitors can be used at the remote load locations to further improve regulation. these can be either of the tantalum or the electrolytic variety. unless the regulator is located very close to the power supply flter capacitor(s), a 4.7uf minimum low esr (0.5-2 ohm) tantalum capacitor should also be added to the regulator's input. an electrolytic may also be substituted if desired. when substituting electrolytic in place of tantalum capacitors, a good rule of thumb to follow is to increase the size of the electrolytic by a factor of 10 over the tantalum value. output voltage the msk5970rh develops a 1.250 volt reference between the output pin and the adjust pin. a resistor, r1, is placed between the output and adjust pins, causing current to fow through r1 and down through r2, setting the output voltage. r1 may be chosen to sink the minimum required load current of 10ma. refer to figure 1 for connections and vout calculation. figure 1 load regulation with a three-terminal device, it is not possible to provide true remote load sensing. the resistance of the connection to the load will limit the load regulation of the device. the best load regulation will be achieved when the top of the divider is connected to the pin as close to the case of the msk5970rh as possible and the bottom of the divider as close to the load as possible. this will efectively reduce the efect of the parasitic line resistance on the load regulation of the device. refer to figure 2 for proper connections. figure 2 ripple rejection the typical curve for ripple rejection is shown with the adjust pin bypassed as shown in figure 3. for proper bypassing and ripple rejection approaching the values of the curve, the impedance of the adjust pin capacitor at the ripple frequency should be less than the value of r1. the value of the adjust pin capacitor is a function of the input ripple frequency. for instance, if r1=100 ? , at 120hz the adjust pin capacitor should be 25f. at 10khz only 0.22uf is required. figure 3 3 8548-135 rev. j 9/17 application notes
application notes 4 8548-135 rev. j 9/17 application notes cont'd overload shutdown the regulator features both power and thermal overload protection. when the maximum power dissipation is not exceeded, the regulator will current limit slightly above it's 1.5 amp rating. as the vin-vout voltage increases, however, shutdown occurs in relation to the maximum power dissipation curve. if the device heats enough to exceed its rated die junction temperature due to excessive ambient temperature, improper heat sinking etc., the regulator also shuts down until an appropriate junction temperature is maintained. it should also be noted that in the case of an extreme overload, such as a sustained direct short, the device may not be able to recover. in these instances, the device must be shut of and power reapplied to eliminate the shutdown condition. total dose radiation test performance radiation performance curves for tid testing have been generated for all radiation testing performed by msk. these curves show performance trends throughout the tid test process and can be located in the msk5970rh radiation test report. the complete radiation test report is available in the rad hard products section on the msk website. http://www.mskennedy.com/store.asp?pid=9951&catid=19680 heat sinking to determine if a heat sink is required for your application and if so, what type, refer to the thermal model and governing equation below. governing equation: tj = pd x (r jc + r qcs + r sa) + ta where tj = junction temperature pd = total power dissipation r jc = junction to case thermal resistance r cs = case to heat sink thermal resistance r sa = heat sink to ambient thermal resistance tc = case temperature ta = ambient temperature ts = heat sink temperature example: this example demonstrates the thermal calculations for the to-257 package with the regulator operating at one-half of its maximum rated output current. conditions for msk5970rh: vin = +8.0v; iout = +0.75a 1.) assume 45 heat spreading model. 2.) find positive regulator power dissipation: pd = (vin - vout)(iout) pd = (8-5)(0.75) = 2.25w 3.) for conservative design, set tj = +125c max. 4.) for this example, worst case ta = +90c. 5.) r jc = 5.7c/w from the electrical specifcation table. 6.) r cs = 0.15c/w for most thermal greases. 7.) rearrange governing equation to solve for r sa: r sa = ((tj - ta)/pd) - (r jc) - (r cs) = (125c - 90c) / 2.25w - 5.7c/w - 0.15c/w = 9.7c/w in this case the result is 9.7c/w. therefore, a heat sink with a thermal resistance of no more than 9.7c/w must be used in this application to maintain regulator circuit junction temperature under 125c.
5 8548-135 rev. j 9/17 typical performance curves
ordering information lead configurations s = straight; u = bent up; d = bent down radiation hardened rh = radiation hardened; blank = edu screening edu = non rad hard engineering units blank = industrial; h = mil-prf-38534 class h; k = mil-prf-38534 class k general part number msk5970 h rh u the above example is an adjustable class k regulator with leads bent up. ordering information for the 3 pad ceramic smd-1 package is contained on the next page. note: see dscc smd 5962r09211 for dscc part number options. esd triangle indicates pin 1 weight=3.2 grams typical all dimensions are specified in inches 6 8548-135 rev. j 9/17 mechanical specifications
ordering information 3 pad ceramic smd-1 package radiation hardened rh = radiation hardened; blank = edu screening edu = non rad hard engineering units blank = industrial; h = mil-prf-38534 class h; k = mil-prf-38534 class k general part number msk5970 k rh l the above example is an adjustable class k regulator. note: see dscc smd 5962r09211 for dscc part number options. weight=2.2 grams typical all dimensions are specified in inches 7 8548-135 rev. j 9/17 mechanical specifications
8 8548-135 rev. j 9/17 revision history rev status date description f released 10/14 format update, add internal note and clarify mechanical specifcations. g released 12/14 add case = isolated to pin out info and esd rating. h released 08/17 add edu device type. j released 09/17 update parameters to better correlate to manufacturer's pre and post rad specs. the information contained herein is believed to be accurate at the time of printing. anaren, msk products reserves the right to make changes to its products or specifcations without notice, however and assumes no liability for the use of its products. please visit our website for the most recent revision of this datasheet. anaren, msk products www.anaren.com/msk
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