aec q100 grade 1 compliant this product conforms to specifications per the terms of the ramtron ramtron international corporation standard warranty. the product has completed ramtron?s internal 1850 ramtron drive, colorado springs, co 80921 qualification testing and has reached production status. (800) 545-fram, (719) 481-7000 http://www.ramtron.com rev. 3.0 apr. 2009 page 1 of 8 fm1105 nonvolatile 5v dual state saver features nonvolatile state saver ? logic states retained in absence of power ? outputs automatically restored at power-up ? number of state changes: 10 12 ? max t pd 50ns at 4.5v ? max frequency 1 mhz low power operation ? supply voltage of 4.5v to 5.5v ? 15 a standby current (+85 c) industry standard configuration ? automotive temperature -40 c to +125 c o qualified to aec q100 specification ? 8-pin ?green?/rohs soic package overview the fm1105 is an innovative fram-based device that stores inputs like conventional logic and retains the stored state in the absence of power. this product solves three basic problems in an elegant fashion. first, it provides continuous access to nonvolatile system settings without performing a memory read operation or using dedicated processor i/o pins. second, it allows the storage of signals that may change frequently and possibly without notice. third, it allows the nonvolatile storage of a system setting without the system overhead and extra pins of a serial memory. functionally, the inputs are stored and passed to the output on the rising edge of the clock clk. this unique product serves a variety of applications. here are a few applications: ! control relays or valves with automatic setting on power-up without processor intervention ! interface to soft/momentary front-panel switch and indicator lamp. capture switch settings and drive leds without processor intervention ! replaces jumpers & control signal routing ! initialize state of i/o card signals ! eliminate the overhead of serial memory for systems needing only a bit of data pin configuration v dd q 0 d 1 clk en d 0 v ss q 1 1 2 3 4 8 7 6 5 pin names function d n data in q n data out en enable clk clock vdd supply voltage vss ground ordering information fm1105-ga dual state saver, 8-pin ?green?/rohs soic, automotive grade 1 FM1105-GATR dual state saver, 8-pin ?green?/rohs soic, automotive grade 1, tape&reel
fm1105 - automotive temp. rev. 3.0 apr. 2009 page 2 of 8 block diagram and truth table inputs output qn en clk dn h l l h h h h h or l x q 0 l x x hi-z l low voltage level h high voltage level x don?t care clk rising edge q 0 previous output state before clk pin descriptions pin name i/o description d 0 , d 1 input data inputs q 0 , q 1 output data outputs clk input clock: on a rising edge of clk, the d n inputs are transferred to the q n outputs. while clk is high or low, the q n outputs do not change regardless of the state of the data inputs. see truth table. en input enable. this active-high input enables the device. when low, inputs are ignored and updates to the nonvolatile cells are prevented. when high, the device operates normally. vdd supply power supply (4.5v to 5.5v) vss supply ground nv state saver clk d n q n en
fm1105 - automotive temp. rev. 3.0 apr. 2009 page 3 of 8 description nonvolatile storage applied to logic is a revolutionary concept. the fm1105 simplifies the design of system control functions. this product is unique because it remembers the stored output values in the absence of power. any change in the latched state is automatically written to a nonvolatile ferroelectric latch. this function is possible due to the fast write time and extremely high write endurance of the underlying ferroelectric memory technology. use of enable pin the fm1105 has an enable pin that is intended to be used in conjunction with a system reset. an active- low reset may be tied directly to the en pin. at power-up, /reset will be held low for some time during which the data input and clk pins will be ignored. once the system comes out of reset and en goes high, the outputs q n drive to the state that were previously latched and the device operates normally. when the en pin is low, the outputs q n are tri- stated. the enable pin may be tied to v dd since the device integrates a power management circuit that monitors the v dd level during power cycles.
fm1105 - automotive temp. rev. 3.0 apr. 2009 page 4 of 8 electrical specifications absolute maximum ratings symbol description ratings v dd power supply voltage with respect to v ss -1.0v to +7.0v v in voltage on any signal pin with respect to v ss -1.0v to +7.0v and v in < v dd +1.0v t stg storage temperature -55 c to + 125 c t lead lead temperature (soldering, 10 seconds) 300 c v esd electrostatic discharge voltage - human body model (jedec std jesd22-a114-b) - charged device model (jedec std jesd22-c101-a) - machine model (jedec std jesd22-a115-a) 4kv 1kv 200v package moisture sensitivity level msl-1 stresses above those listed under absolute maximum ratings may cause permanent damage to the device. this is a stress rating only, and the functional operation of the device at these or any other conditions above those listed in the operational section of this specification is not implied. exposure to absolute maximum ratings conditions for extended periods may affect device reliabilit y. dc operating conditions ( t a = -40 c to +125 c, v dd = 4.5v to 5.5v unless otherwise specified) symbol parameter min typ max units notes v dd power supply voltage 4.5 5.0 5.5 v i sb standby current @ +85 c @ +125 c - - 15 20 a a 1 c pd power dissipation capacitance - 165 pf 2 i li input leakage current 1 1 notes 1. clk = v ss , all other inputs at v dd or v ss . 2. to calculate device power dissipation, p d = c pd *v dd 2 *f i + c l *v dd 2 *f o , where f i is the input clk freq, f o is the output freq, and c l is the output load capacitance. active current i dd may be calculated as i dd = c pd *v dd *f i , assuming outputs are floating. 3. v in or v out = v ss to v dd . 4. this parameter is characterized but not tested. capacitance (t a = 25 c , f=1.0 mhz, v dd = 5.0v) symbol parameter min max units notes c i input capacitance - 8 pf 1 notes 1. this parameter is characterized but not tested.
fm1105 - automotive temp. rev. 3.0 apr. 2009 page 5 of 8 ac parameters (t a = -40 c to +125 c, v dd = 4.5v to 5.5v, c l = 30 pf unless otherwise specified) symbol parameter min max units notes f max maximum clock frequency - 1 mhz t low clk low period 0.3 - 5 - ns t dh data (d n ) hold time after clk 10 - ns t ehd en hold time (en high after clk ) 50 - ns t eh en high time 5 - notes 1. this parameter is characterized but not tested. power cycling and data retention (t a = -40 c to +125 c, v dd = 4.5v to 5.5v, unless otherwise specified) symbol parameter min max units notes nonvolatile data retention time 45 - years t vdr v dd rise time 25 - ) after power up 4 - notes 1. slope measured at any point on v dd waveform. 2. after power up, when en goes high the nonvolatile latches are read and the values restored to the outputs q n . 3. after power up, this is the minimum time required before a state change operation may occur. en and v dd may be coincident at power up, and in this case t ehfc time is referenced to v dd (min) and clk . data retention (v dd = 4.5v to 5.5v) parameter min max units notes data retention @ t a = 85 c @ t a = 125 c 45 9000 - - years hours note: the device is guaranteed to retain data after both conditions have been applied: (1) 45 yrs at a temperature of 85 c and (2) 9000 hours at 125 c. typical grade 1 operating profile 0 200 400 600 800 1000 1200 1400 1600 70 75 80 85 90 95 100 105 110 115 120 125 temperature (c) hours typical grade 1 storage profile 0 5000 10000 15000 20000 25000 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 temperature (c) hours
fm1105 - automotive temp. rev. 3.0 apr. 2009 page 6 of 8 ac test conditions input pulse levels 0.1 v dd to 0.9 v dd input rise and fall times 10 ns input and output timing levels 0.5 v dd output load capacitance 30pf fm1105 signal timing clk d n q n previous d0 q0 t pd t ds t dh t high 1/f max d1 t low t=0 en t ehd q1 t pd t hz t el t eh q1 t res power cycle timing ~ ~ ~ ~ ~ ~ d7 d8 dlast q7 q8 qlast qlast d0 d1 q0 q1 clk d n q n ~ ~ v dd v dd (min) v dd (min) t pds t ehfc t res ~ ~ en
fm1105 - automotive temp. rev. 3.0 apr. 2009 page 7 of 8 mechanical drawing 8-pin soic (jedec standard ms-012 variation aa) pin 1 3.90 0.10 6.00 0.20 4.90 0.10 0.10 0.25 1.35 1.75 0.33 0.51 1.27 0.10 mm 0.25 0.50 45 0.40 1.27 0.19 0.25 0 - 8 recommended pcb footprint 7.70 0.65 1.27 2.00 3.70 refer to jedec ms-012 for complete dimensions and notes. all dimensions in millimeters . soic package marking scheme legend: xxxx= part number, p= package type, t= temp (a=automotive grade, blank=ind.) lllllll= lot code ric=ramtron int?l corp, yy=year, ww=work week example: fm1105, ?green? soic package, automotive, year 2008, work week 19 fm1105-ga a80007g ric0819 xxxxxxx-pt lllllll ricyyww
fm1105 - automotive temp. rev. 3.0 apr. 2009 page 8 of 8 revision history revision date summary 1.0 11/26/2008 created automotive temperature spec. 1.1 2/3/2009 updated i sb @ +85c and added tape and reel ordering information. 3.0 4/15/2009 changed to production status. changed 125c retention time.
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