CN208707604U - Flip-flop circuit is mutually latched on a kind of three tunnels detected based on transmission gate and SET - Google Patents
Flip-flop circuit is mutually latched on a kind of three tunnels detected based on transmission gate and SET Download PDFInfo
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- CN208707604U CN208707604U CN201821374088.3U CN201821374088U CN208707604U CN 208707604 U CN208707604 U CN 208707604U CN 201821374088 U CN201821374088 U CN 201821374088U CN 208707604 U CN208707604 U CN 208707604U
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Abstract
The utility model discloses a kind of three tunnels detected based on transmission gate and SET mutually to latch flip-flop circuit, which mutually latches flip-flop circuit by clocked inverter chain circuit, D input inverter chain circuit, set-reset signal generating circuit, main DICE latch cicuit and form from DICE latch cicuit;The technical solution of the utility model detects the mutual latch technique in three tunnels using SET, improves the working frequency of circuit to keep the timing performance of trigger more preferable so as to reduce the biggish settling time of filtering wave by prolonging time generation, has better anti-SEU characteristic.
Description
Technical field
The utility model relates to the designs of radiation-hardened ic, are specifically related to a kind of three detected based on transmission gate and SET
Mutually latch flip-flop circuit in road.
Background technique
With the progress of integrated circuit fabrication process, the promotion of the diminution of device size and operating rate, radiate to circuit
Influence also become increasingly severe.Radiation is presented as single particle effect (Single Event to the main influence of digital circuit
Effect, SEE) and total dose effect (Total Ionizing Dose, TID), as Deep Submicron MOSFETs become master
Stream, when the process node of especially MOS circuit reaches 65nm or less, it is main that single particle effect has become influence MOS device
Radiation effect.Single particle effect is broadly divided into single-ion transient state (Single Event Transient, SET) and simple grain
Son overturning (Single Event Upset, SEU).
Under radiation environment, MOS integrated circuit is by the charged particle bombardment of high energy.When charged particle bombardment ends to script
Metal-oxide-semiconductor drain region when, can generate due to the energy transmission of high energy charged particles, in the short time largely can be with free-moving current-carrying
Son, i.e. hole and electronics, to make the metal-oxide-semiconductor ended originally conducting, to change the output level of device.Due to high energy particle
The carrier of generation over time can be compound quickly or releases and return to the carrier concentration state before bombardment, therefore is hit
Metal-oxide-semiconductor have one from by the end of being conducting to the process ended again, be reflected in metal-oxide-semiconductor output on, a positive arteries and veins will be generated
The waveform of punching or negative pulse.The pulse effects of this transient state is referred to as single-ion transient state.For combinational logic circuit, single-particle
Transient effect will affect the output of circuit.And in sequence circuit, when the positive pulse or negative pulse of single-ion transient state generation are touched
Hair device or other storage circuits receive or the storage section of circuit is directly hit by high energy particle and generates overturning, due to electricity
The memory function on road, so that this overturning can not restore, so that the output of entire circuit be made to generate mistake, this effect is referred to as single
Particle overturning.
Either single-ion transient state effect or Single event upset effecf can all influence the normal work of circuit, therefore having must
(Radiation Harden) is reinforced to the MOS integrated circuit to work under radiation environment.At present on trigger structure
It is mainly reinforced using DICE structure to reduce the influence of single-particle inversion, and it is general to the single-ion transient state of data terminal input
When being filtered using C cell circuit, but being filtered using C cell circuit, the settling time (setup time) of trigger
Also it increases with it, the timing performance of entire circuit is caused to deteriorate, working frequency decline.
Summary of the invention
The purpose of this utility model is to provide a kind of mutual latched flip flop electricity in three tunnels detected based on transmission gate and SET
Road, three tunnel mutually latch flip-flop circuit and overcome the deficiencies in the prior art, shorten the settling time of trigger, substantially improve
The timing performance of entire circuit, improves the working frequency of circuit, has better anti-SEU characteristic.
In order to achieve the above objectives, the technical scheme adopted by the utility model to solve the technical problem is as follows: it is a kind of based on biography
Mutually latch flip-flop circuit in three tunnels of defeated door and SET detection, it is characterised in that: mutually latch flip-flop circuit when including in three tunnel
Clock chain of inverters circuit, D input inverter chain circuit, set-reset signal generating circuit, main DICE latch cicuit and from DICE
Latch cicuit;External clock signal CK is separately input to clocked inverter chain circuit and set-reset signal generating circuit, outside
The clock signal CK in portion generates three road in-phase clock signal bclk1, bclk2, bclk3 through clocked inverter chain circuit and three tunnels are anti-
Clock signal nclk1, nclk2, nclk3;External data signal D is separately input to D input inverter chain circuit and set is multiple
Position signal generating circuit, external data signal D generate two circuit-switched data signal d1, d2 and anti-all the way through D input inverter chain circuit
Phase data signal nd;Clock signal CK, data-signal D, D input inverter chain circuit generate data-signal d1 all the way and anti-all the way
Phase data signal nd and two road inverting clock signal nclk1, nclk2 and all the way in-phase clock signal bclk2 are through set-reset
Set signal sn and reset signal r is exported after signal generating circuit;The data-signal D, three road in-phase clock signal bclk1,
Bclk2, bclk3 and three road inverting clock signal nclk1, nclk2, nclk3 and two circuit-switched data signal d1, d2 and set signal
Sn and reset signal r is input to main DICE latch cicuit, and three data signal m1, m2, m3 are exported after main DICE latch cicuit;
The set signal sn and reset signal r of set-reset signal generating circuit output, three road in-phase clock signal bclk1,
Three numbers of bclk2, bclk3 and three road inverting clock signal nclk1, nclk2, nclk3 and main DICE latch cicuit output
It is believed that number m1, m2 and m3 are input to from DICE latch cicuit, the then outputting data signals Q after from DICE latch cicuit;
The clocked inverter chain circuit be by 12 PMOS tube PM1, PM2, PM3, PM4, PM5, PM6, PM7, PM8,
PM9, PM10, PM11, PM12 and 12 NMOS tube NM1, NM2, NM3, NM4, NM5, NM6, NM7, NM8, NM9, NM10,
NM11, NM12 composition;The PM1 and NM1, PM2 and NM2, PM3 and NM3, PM4 and NM4, PM5 and NM5, PM6 and NM6, PM7 and
NM7, PM8 and NM8, PM9 and NM9, PM10 and NM10, PM11 and NM11, PM12 and NM12 respectively constitute a phase inverter, when described
Clock signal CK is connect with the input terminal of phase inverter PM1 and NM1, and inverting clock signal nclk1 is exported after inverted device PM1 and NM1;
The input terminal of the phase inverter PM2 and NM2 is connect with the output end of phase inverter PM1 and NM1, is exported after inverted device PM2 and NM2
In-phase clock signal bclk1;The input terminal of the phase inverter PM3 and NM3 is connect with clock signal CK, output end and phase inverter
PM4 is connected with the input terminal of NM4, and the input terminal of the phase inverter PM5 and NM5 is connect with the output end of phase inverter PM4 and NM4,
Its output end is connect with the input terminal of phase inverter PM6 and NM6, clock signal CK inverted device PM3 and NM3, PM4 and NM4, PM5
With output in-phase clock signal bclk2 after output inverting clock signal nclk2, then inverted device PM6 and NM6 after NM5;It is described anti-
The input terminal of phase device PM7 and NM7 are connect with clock signal CK, and output end is connect with the input terminal of phase inverter PM8 and NM8, described
The input terminal of phase inverter PM9 and NM9 are connect with the output end of phase inverter PM8 and NM8, output end and phase inverter PM10 and NM10
Input terminal connection, the input terminal of the phase inverter PM11 and NM11 is connect with the output end of phase inverter PM10 and NM10, defeated
Outlet is connect with the input terminal of phase inverter PM12 and NM12, clock signal CK inverted device PM7 and NM7, PM8 and NM8, PM9 and
It is exported together after exporting inverting clock signal nclk3, then inverted device PM12 and NM12 after NM9, PM10 and NM10, PM11 and NM11
Clock signal bclk3;
The D input inverter chain circuit be by 4 PMOS tube PM13, PM14, PM15, PM16 and 4 NMOS tube NM13,
NM14, NM15, NM16 composition;The PM13 and NM13, PM14 and NM14, PM15 and NM15, PM16 and NM16 respectively constitute one
Phase inverter;The data-signal D is connect with the input terminal of phase inverter PM13 and NM13, is exported after inverted device PM13 and NM13 anti-
To data-signal nd;The anti-phase data signal nd is input to the input terminal of phase inverter PM14 and NM14, inverted device PM14 and
Outputting data signals d1 after NM14;The input terminal of the phase inverter PM15 and NM15 and the output end of phase inverter PM14 and NM14 connect
It connects, output end exports reverse data signal nd1, and the anti-phase data signal nd1 is input to the input of phase inverter PM16 and NM16
It holds, outputting data signals d2 after inverted device PM16 and NM16;
The set-reset signal generating circuit be by 10 PMOS tube PM17, PM18, PM19, PM20, PM21, PM22,
PM23, PM24, PM25, PM26 and 10 NMOS tube NM17, NM18, NM19, NM20, NM21, NM22, NM23, NM24, NM25,
NM26 composition;The grid of the PM21 and NM21 is connect with the output end of clock signal CK;The grid of the PM20 and NM20 with
The signal output end connection for the inverting clock signal nclk2 that clocked inverter chain circuit generates, the grid of the PM19 and NM19
It is connect with the signal output end of the data-signal d1 of D input inverter chain circuit generation, the grid and D of the PM18 and NM18 are defeated
Enter the signal output end connection of the reverse data signal nd of chain of inverters circuit evolving, the external number of the grid of the PM17 and NM17
It is believed that number D;The equal external power supply of the source electrode of described PM17, PM18, PM19, PM20, PM21;The PM17, PM18, PM19, PM20,
The drain electrode of PM21 is connect with the signal output end of the set signal sn of set-reset signal generating circuit;The drain electrode of the NM21
It is connect with the drain electrode of PM17, the source electrode of NM21 is connected with the drain electrode of NM20, and the source electrode of NM20 is connected with the drain electrode of NM19, NM19's
Source electrode is connected with the drain electrode of NM18, and the source electrode of NM18 is connected with the drain electrode of NM17, the source electrode ground connection of NM17;The PM22 and NM22
The signal output end of inverting clock signal nclk1 that generates of grid and clocked inverter chain circuit connect;The PM23 and
The grid of NM23 is connect with the signal output end for the in-phase clock signal bclk2 that clocked inverter chain circuit generates, the PM24
The signal output end of the data-signal d1 generated with the grid of NM24 and D input inverter chain circuit is connect, the PM25 and
The grid of NM25 is connect with the signal output end for the reverse data signal nd that D input inverter chain circuit generates, the PM26 and
The grid external data signal D of NM26;The source electrode external power supply of the PM22;The drain electrode of the PM22 connects with the source electrode of PM23
Connect, the drain electrode of the PM23 is connect with the source electrode of PM24, and the drain electrode of the PM24 is connect with the source electrode of PM25, the drain electrode of PM25 with
The source electrode of PM26 connects, and the drain electrode of the PM26 is connect with the drain electrode of NM26, described NM22, NM23, NM24, NM25, NM26's
Drain electrode is connect with the signal output end of the reset signal r of set-reset signal generating circuit;The NM22, NM23, NM24,
The source grounding of NM25, NM26;
The main DICE latch cicuit be by 21 PMOS tube PM27, PM28, PM29, PM30, PM31, PM32, PM33,
PM34, PM35, PM36, PM37, PM38, PM39, PM40, PM41, PM42, PM43, PM44, PM45, PM46, PM47 and 24
NMOS tube NM27, NM28, NM29, NM30, NM31, NM32, NM33, NM34, NM35, NM36, NM37, NM38, NM39,
NM40, NM41, NM42, NM43, NM44, NM45, NM46, NM47, NM48, NM49, NM50 and 6 transmission gate TM1, TM2,
TM3, TM4, TM5, TM6 composition;The grid external data signal D of the PM27, and be connected with the grid of NM27, the source electrode of PM27
External power supply, drain electrode are connect with the left data input port of the drain electrode of NM27 and transmission gate TM1 respectively, the transmission gate TM1
Right side data port connect respectively with the grid of the drain electrode of the grid of PM32, PM31 and NM31 and NM41;The PM28's
Grid external data signal d1, and being connected with the grid of NM28, the source electrode external power supply of PM28, drain electrode respectively with the drain electrode of NM28
Connected with the left data input port of transmission gate TM2, the right side data port of the transmission gate TM2 respectively with the grid of PM36
Pole, PM35 are connected with the grid of the drain electrode of NM35 and NM33;The grid external data signal d2 of the PM29, and with NM29's
Grid is connected, the source electrode external power supply of PM29, and drain the left data input port with the drain electrode of NM29 and transmission gate TM3 respectively
Connection, the right side data port of transmission gate TM3 grid with the drain electrode of the grid of PM40, PM39 and NM39 and NM37 respectively
Pole connection;
The grid of the PM30 is connected with the grid of the drain electrode of the drain electrode of PM41 and NM41, PM44 and NM44, NM38 respectively,
The source electrode external power supply of PM30, drain electrode connect with the source electrode of PM31;The grid and clocked inverter chain circuit of the PM31 generates
Inverting clock signal nclk1 signal output end connection, the drain electrode of PM31 is connected with the drain electrode of NM31 respectively;The NM31's
Grid is connect with the signal output end for the in-phase clock signal bclk1 that clocked inverter chain circuit generates, source electrode and NM30's
Drain electrode is connected;The grid of the NM30 drain electrode phase with the drain electrode of the grid of PM34, PM33 and NM33, PM42 and NM42 respectively
Even;The drain electrode of the source electrode external power supply of the PM32, PM32 is connected with the source electrode of PM33;The grid and set-reset of the PM33
The signal output end of the reset signal r of signal generating circuit connects, and the drain electrode of PM33 is connect with the drain electrode of NM33 respectively;It is described
The drain electrode of the source electrode and NM32 of NM33 connects, the set signal sn's of the grid and set-reset signal generating circuit of the NM32
Signal output end connection;The drain electrode of the source electrode external power supply of the PM34, PM34 is connected with the source electrode of PM35 respectively;The PM35
The signal output end of inverting clock signal nclk2 that generates of grid and clocked inverter chain circuit connect, the drain electrode point of PM35
It is not connect with the drain electrode of NM35;The in-phase clock signal bclk2's that the grid and clocked inverter chain circuit of the NM35 generates
Signal output end connection, the drain electrode connection of source electrode and NM34;The source electrode external power supply of the PM36, the drain electrode of PM36 and PM37
Source electrode be connected;The grid of the PM37 is connect with the signal output end of the reset signal r of set-reset signal generating circuit,
The drain electrode of PM37 is connect with the drain electrode of NM37 respectively;The drain electrode of the source electrode and NM36 of the NM37 connects, the grid of the NM36
It is connect with the signal output end of the set signal sn of set-reset signal generating circuit;The source electrode external power supply of the PM38,
The drain electrode of PM38 is connected with the source electrode of PM39 respectively;The inversion clock that the grid and clocked inverter chain circuit of the PM39 generates
The signal output end of signal nclk3 connects, and the drain electrode of PM39 is connect with the drain electrode of NM39 respectively;The grid and clock of the NM39
The signal output end of the in-phase clock signal bclk3 of chain of inverters circuit evolving connects, the drain electrode connection of source electrode and NM38;Institute
The source electrode external power supply of PM40 is stated, the drain electrode of PM40 is connected with the source electrode of PM41;The grid and set-reset signal of the PM41
The signal output end of the reset signal r of generation circuit connects, and the drain electrode of PM41 is connect with the drain electrode of NM41 respectively;The NM41's
The drain electrode of source electrode and NM40 connect, and the signal of the set signal sn of the grid and set-reset signal generating circuit of the NM40 is defeated
Outlet connection;The grid of the PM42 is connect with the signal output end of the set signal sn of set-reset signal generating circuit,
Source electrode external power supply, drain electrode are connect with the left data input port of the drain electrode of NM42, transmission gate TM4 respectively;The NM42's
Grid is connect with the signal output end of the reset signal r of set-reset signal generating circuit;The grid of the PM45 and NM46's
Grid is connect with the signal output end of the set signal sn of set-reset signal generating circuit, the source electrode external power supply of PM45,
Its drain electrode is connect with the drain electrode of the right side data-out port, NM46 of transmission gate TM4 respectively;The source electrode of the NM46 and NM45's
Drain electrode connection, the signal output end of the reset signal r of the grid and set-reset signal generating circuit of the NM45 are connect;It is described
The drain electrode output of PM45 all the way data-signal m1 to from DICE latch cicuit;The grid and set-reset signal of the PM43 generates
The signal output end of the set signal sn of circuit connects, source electrode external power supply, drain electrode respectively with the drain electrode of NM43, transmission gate
The left data input port of TM5 connects;The letter of the reset signal r of the grid and set-reset signal generating circuit of the NM43
The connection of number output end;The grid of the PM46 and the grid of NM48 are with the set signal sn's of set-reset signal generating circuit
Signal output end connection, the source electrode external power supply of PM46, drain electrode respectively with the right side data-out port of transmission gate TM5,
The drain electrode of NM48 connects;The drain electrode of the source electrode and NM47 of the NM48 connects, and the grid and set-reset signal of the NM47 produces
The signal output end connection of the reset signal r of raw circuit;The drain electrode output another way data-signal m2 of the PM46 is extremely from DICE
Latch cicuit;The grid of the PM44 is connect with the signal output end of the set signal sn of set-reset signal generating circuit,
Source electrode external power supply, drain electrode are connect with the left data input port of the drain electrode of NM44, transmission gate TM6 respectively;The NM44's
Grid is connect with the signal output end of the reset signal r of set-reset signal generating circuit;The grid of the PM47 and NM50's
Grid is connect with the signal output end of the set signal sn of set-reset signal generating circuit, the source electrode external power supply of PM47,
Its drain electrode is connect with the drain electrode of the right side data-out port, NM50 of transmission gate TM6 respectively;The source electrode of the NM50 and NM49's
Drain electrode connection, the signal output end of the reset signal r of the grid and set-reset signal generating circuit of the NM49 are connect;It is described
The drain electrode output another way data-signal m3 of PM47 is extremely from DICE latch cicuit;The NM27, NM28, NM29, NM30, NM32,
The source grounding of NM34, NM36, NM38, NM40, NM42, NM43, NM44, NM45, NM47, NM49;The transmission gate TM1
The signal output end of inverting clock signal nclk1 that generates of same phase control end and clocked inverter chain circuit connect, transmission gate
The inverted control terminals of TM1 are connect with the signal output end for the in-phase clock signal bclk1 that clocked inverter chain circuit generates, described
The signal output end for the inverting clock signal nclk2 that the same phase control end of transmission gate TM2 and clocked inverter chain circuit generate connects
It connects, the signal output end for the in-phase clock signal bclk2 that the inverted control terminals and clocked inverter chain circuit of transmission gate TM2 generate
The signal for the inverting clock signal nclk3 that connection, the same phase control end of the transmission gate TM3 and clocked inverter chain circuit generate
Output end connection, the letter for the in-phase clock signal bclk3 that the inverted control terminals and clocked inverter chain circuit of transmission gate TM3 generate
The connection of number output end, the inverting clock signal that the inverted control terminals and clocked inverter chain circuit of the transmission gate TM4 generate
The signal output end of nclk1 connects, and the in-phase clock of the same phase control end of transmission gate TM4 and the generation of clocked inverter chain circuit is believed
The signal output end connection of number bclk1, the reverse phase that the inverted control terminals and clocked inverter chain circuit of the transmission gate TM5 generate
The signal output end of clock signal nclk2 connects, and same phase control end and the clocked inverter chain circuit of transmission gate TM5 generates same
The signal output end of clock signal bclk2 connects;The inverted control terminals and clocked inverter chain circuit of the transmission gate TM6 are raw
At inverting clock signal nclk3 signal output end connection, the same phase control end of transmission gate TM6 and clocked inverter chain circuit
The signal output end of the in-phase clock signal bclk3 of generation connects;
It is described from DICE latch cicuit be by 15 PMOS tube PM48, PM49, PM50, PM51, PM52, PM53, PM54,
PM55, PM56, PM57, PM58, PM59, PM60, PM61, PM62 and 15 NMOS tube NM51, NM52, NM53, NM54, NM55,
NM56, NM57, NM58, NM59, NM60, NM61, NM62, NM63, NM64, NM65 composition;The grid of the PM48 and set are multiple
The signal output end connection of the reset signal r of position signal generating circuit, source electrode external power supply, drain electrode are connect with the source electrode of PM49;
The grid of the PM49 connects with the grid of the drain electrode of PM59 and NM62, the grid of the grid of NM60 and PM60 and NM63 respectively
It connects, drain electrode is connected with the source electrode of PM50;The in-phase clock signal that the grid and clocked inverter chain circuit of the PM50 generates
The signal output end of bclk1 connects, the drain electrode of PM50 respectively with the drain electrode of NM53, the grid of PM51, the grid of NM62 and master
The output end connection of data-signal m1 all the way in DICE latch cicuit;The grid and clocked inverter chain circuit of the NM53 generates
Inverting clock signal nclk1 signal output end connection, source electrode is connected with the drain electrode of NM52;The grid of the NM52 is distinguished
It is connect with the grid of the drain electrode of PM51 and NM54, the grid of PM53 and PM62 and NM65, source electrode is connected with the drain electrode of NM51;
The grid of the NM51 is connect with the signal output end of the set signal sn of set-reset signal generating circuit;The source of the PM51
Pole external power supply, drain electrode are connect with the drain electrode of NM54;The grid of NM54 grid with the drain electrode of PM54 and NM57, PM55 respectively
Pole with the output end of data-signal m2 connects all the way in main DICE latch cicuit;The grid and set-reset signal of the PM52 produces
The signal output end connection of the reset signal r of raw circuit, source electrode external power supply, drain electrode are connect with the source electrode of PM53;The PM53
Drain electrode be connected with the source electrode of PM54;The in-phase clock signal that the grid and clocked inverter chain circuit of the PM54 generates
The signal output end of bclk2 connects, and the drain electrode of PM54 is connect with the drain electrode of NM57;The grid and clocked inverter chain of the NM57
The signal output end of the inverting clock signal nclk2 of circuit evolving connects, and source electrode is connected with the drain electrode of NM56;The NM56's
Source electrode is connected with the drain electrode of NM55;The grid of the NM55 and the signal of the set signal sn of set-reset signal generating circuit are defeated
Outlet connection;The source electrode external power supply of the PM55, drain electrode are connect with the drain electrode of NM58;The grid of the NM58 respectively with PM58
With the drain electrode of NM61, PM59 grid with the output end of data-signal m3 connects all the way in main DICE latch cicuit;The PM56
Grid connect with the signal output end of the reset signal r of set-reset signal generating circuit, source electrode external power supply, drain electrode with
The source electrode of PM57 connects;The drain electrode of the PM57 is connected with the source electrode of PM58;Grid and clocked inverter the chain electricity of the PM58
The signal output end connection for the in-phase clock signal bclk3 that road generates, the drain electrode of PM58 are connect with the drain electrode of NM61;The NM61
The signal output end of inverting clock signal nclk3 that generates of grid and clocked inverter chain circuit connect, source electrode and NM60
Drain electrode be connected;The source electrode of the NM60 is connected with the drain electrode of NM59;The grid and set-reset signal of the NM59 generates electricity
The signal output end of the set signal sn on road connects;The source electrode external power supply of the PM59, drain electrode are connect with the drain electrode of NM62;Institute
The source electrode external power supply of PM60 is stated, drain electrode is connect with the source electrode of PM61;The grid of the PM61 and the grid of NM64 connect, leakage
The connection of the source electrode of pole and PM62, the drain electrode of the PM62 are connect with the drain electrode of NM65;The drain electrode of the source electrode and NM64 of the NM65
It is connected, the drain electrode of the source electrode and NM63 of NM64 connects;The drain electrode outputting data signals Q of the PM62;The NM51, NM54,
The source grounding of NM55, NM58, NM59, NM62, NM63.
In the above-mentioned technical solutions, when rising edge clock signal arrives, if data terminal D is receiving a SET just just
Pulse carries out asynchronous reset to trigger, conversely, working as then reset-set signal generating circuit will generate a reset signal r
When data terminal D receives a SET negative pulse, reset-set signal generating circuit generates a set signal sn, to trigger
Asynchronous set is carried out, when trigger is not at rising edge clock signal or data terminal D does not have SET pulse interference, resets letter
Number and set signal all in invalid state, r is low level, and sn is high level, at this time circuit maintain work normally.Due to not having
Using C cell filter circuit, the settling time of the trigger will shorten, so that timing performance be made to be improved, improve electricity
The working frequency on road.The circuit also uses three and mutually latches (TICE) technology simultaneously, relative to the common anti-spoke based on DICE
Trigger is penetrated, there is better anti-SEU characteristic.
Detailed description of the invention
Fig. 1 is the principle knot that flip-flop circuit is mutually latched on a kind of three tunnels detected based on transmission gate and SET of the utility model
Composition;
Fig. 2 is that a kind of clock that flip-flop circuit is mutually latched on three tunnels detected based on transmission gate and SET of the utility model is anti-
Phase device chain circuit figure;
Fig. 3 is that the D input of flip-flop circuit is mutually latched instead in a kind of three tunnels detected based on transmission gate and SET of the utility model
Phase device chain circuit figure;
Fig. 4 is that a kind of set that flip-flop circuit is mutually latched on three tunnels detected based on transmission gate and SET of the utility model is multiple
Position signal generating circuit figure;
Fig. 5 is the main DICE that flip-flop circuit is mutually latched on a kind of three tunnels detected based on transmission gate and SET of the utility model
Latch cicuit figure;
Fig. 6 is the slave DICE that flip-flop circuit is mutually latched on a kind of three tunnels detected based on transmission gate and SET of the utility model
Latch cicuit figure;
It is multiple that Fig. 7 is that set in flip-flop circuit is mutually latched on a kind of three tunnels detected based on transmission gate and SET of the utility model
The reset signal r of position signal generating circuit generates timing diagram;
It is multiple that Fig. 8 is that set in flip-flop circuit is mutually latched on a kind of three tunnels detected based on transmission gate and SET of the utility model
The set signal sn of position signal generating circuit generates timing diagram.
Specific embodiment
Touching is mutually latched on three tunnels detected based on transmission gate and SET a kind of to the utility model with reference to the accompanying drawings and examples
Hair device circuit is described in further detail.The attached drawing for constituting the application is used to provide a further understanding of the present invention, this
The illustrative embodiments and their description of utility model do not constitute the improper limit to the utility model for explaining the utility model
It is fixed.
By Fig. 1-Fig. 6 as it can be seen that a kind of mutual latched flip flop electricity in three tunnels detected based on transmission gate and SET of the present embodiment
Road includes clocked inverter chain circuit, D input inverter chain circuit, set-reset signal generating circuit, main DICE latch cicuit
With from DICE latch cicuit.External clock signal CK is separately input to clocked inverter chain circuit and set-reset signal generates
Circuit, external clock signal CK generate three road in-phase clock signal bclk1, bclk2, bclk3 through clocked inverter chain circuit
With three road inverting clock signal nclk1, nclk2, nclk3;External data signal D is separately input to D input inverter chain circuit
With set-reset signal generating circuit, external data signal D generates two circuit-switched data signal d1, d2 through D input inverter chain circuit
Anti-phase data signal nd all the way;Clock signal CK, data-signal D, D input inverter chain circuit generate data-signal d1 all the way
Anti-phase data signal nd and two road inverting clock signal nclk1, nclk2 and all the way in-phase clock signal bclk2 warp all the way
Set signal sn and reset signal r is exported after set-reset signal generating circuit;The data-signal D, three road in-phase clocks letter
Number bclk1, bclk2, bclk3 and three road inverting clock signal nclk1, nclk2, nclk3 and two circuit-switched data signal d1, d2 and
Set signal sn and reset signal r is input to main DICE latch cicuit, and three data signal is exported after main DICE latch cicuit
m1,m2,m3;The set signal sn and reset signal r, three road in-phase clock signals of the set-reset signal generating circuit output
What bclk1, bclk2, bclk3 and three road inverting clock signal nclk1, nclk2, nclk3 and main DICE latch cicuit were exported
Three data signal m1, m2 and m3 are input to from DICE latch cicuit, and then output data is believed after from DICE latch cicuit
Number Q.
By Fig. 1, Fig. 2 as it can be seen that the clocked inverter chain circuit of the present embodiment be by 12 PMOS tube PM1, PM2, PM3,
PM4, PM5, PM6, PM7, PM8, PM9, PM10, PM11, PM12 and 12 NMOS tube NM1, NM2, NM3, NM4, NM5, NM6,
NM7, NM8, NM9, NM10, NM11, NM12 composition.The PM1 and NM1, PM2 and NM2, PM3 and NM3, PM4 and NM4, PM5 and
NM5, PM6 and NM6, PM7 and NM7, PM8 and NM8, PM9 and NM9, PM10 and NM10, PM11 and NM11, PM12 and NM12 difference
A phase inverter is constituted, the clock signal CK is connect with the input terminal of phase inverter PM1 and NM1, defeated after inverted device PM1 and NM1
Inverting clock signal nclk1 out;The input terminal of the phase inverter PM2 and NM2 is connect with the output end of phase inverter PM1 and NM1, warp
In-phase clock signal bclk1 is exported after phase inverter PM2 and NM2;The input terminal and clock signal CK of the phase inverter PM3 and NM3
Connection, output end are connect with the input terminal of phase inverter PM4 and NM4, the input terminal and phase inverter PM4 of the phase inverter PM5 and NM5
It is connected with the output end of NM4, output end is connect with the input terminal of phase inverter PM6 and NM6, the inverted device PM3 of clock signal CK
When with exporting after output inverting clock signal nclk2, then inverted device PM6 and NM6 after NM3, PM4 and NM4, PM5 and NM5 with phase
Clock signal bclk2;The input terminal of the phase inverter PM7 and NM7 is connect with clock signal CK, output end and phase inverter PM8 and NM8
Input terminal connection, the input terminal of the phase inverter PM9 and NM9 connect with the output end of phase inverter PM8 and NM8, output end
It is connect with the input terminal of phase inverter PM10 and NM10, the input terminal and phase inverter PM10 and NM10 of the phase inverter PM11 and NM11
Output end connection, output end connect with the input terminal of phase inverter PM12 and NM12, the inverted device PM7 of clock signal CK with
Inverting clock signal nclk3, then inverted device are exported after NM7, PM8 and NM8, PM9 and NM9, PM10 and NM10, PM11 and NM11
In-phase clock signal bclk3 is exported after PM12 and NM12.
By Fig. 1, Fig. 3 as it can be seen that the D input inverter chain circuit of the present embodiment be by 4 PMOS tube PM13, PM14, PM15,
PM16 and 4 NMOS tube NM13, NM14, NM15, NM16 composition;The PM13 and NM13, PM14 and NM14, PM15 and NM15,
PM16 and NM16 respectively constitutes a phase inverter;The data-signal D is connect with the input terminal of phase inverter PM13 and NM13, inverted
Reverse data signal nd is exported after device PM13 and NM13;The anti-phase data signal nd is input to the defeated of phase inverter PM14 and NM14
Enter end, outputting data signals d1 after inverted device PM14 and NM14;The input terminal and phase inverter of the phase inverter PM15 and NM15
PM14 is connected with the output end of NM14, and output end exports reverse data signal nd1, and the anti-phase data signal nd1 is input to instead
The input terminal of phase device PM16 and NM16, outputting data signals d2 after inverted device PM16 and NM16.
By Fig. 1, Fig. 4 as it can be seen that the set-reset signal generating circuit of the present embodiment be by 10 PMOS tube PM17, PM18,
PM19, PM20, PM21, PM22, PM23, PM24, PM25, PM26 and 10 NMOS tube NM17, NM18, NM19, NM20, NM21,
NM22, NM23, NM24, NM25, NM26 composition;The grid of the PM21 and NM21 is connect with the output end of clock signal CK;Institute
It states the grid of PM20 and NM20 and the signal output end of inverting clock signal nclk2 that clocked inverter chain circuit generates is connect,
The grid of the PM19 and NM19 is connect with the signal output end for the data-signal d1 that D input inverter chain circuit generates, described
The grid of PM18 and NM18 is connect with the signal output end for the reverse data signal nd that D input inverter chain circuit generates, described
The grid external data signal D of PM17 and NM17;The equal external power supply of the source electrode of described PM17, PM18, PM19, PM20, PM21;Institute
The drain electrode for stating PM17, PM18, PM19, PM20, PM21 is defeated with the signal of the set signal sn of set-reset signal generating circuit
Outlet connection;The drain electrode of the NM21 is connect with the drain electrode of PM17, and the source electrode of NM21 is connected with the drain electrode of NM20, the source electrode of NM20
It is connected with the drain electrode of NM19, the source electrode of NM19 is connected with the drain electrode of NM18, and the source electrode of NM18 is connected with the drain electrode of NM17, NM17's
Source electrode ground connection;The signal for the inverting clock signal nclk1 that the grid and clocked inverter chain circuit of the PM22 and NM22 generates
Output end connection;The letter for the in-phase clock signal bclk2 that the grid and clocked inverter chain circuit of the PM23 and NM23 generates
The signal of the connection of number output end, the data-signal d1 that the grid and D input inverter chain circuit of the PM24 and NM24 generate is defeated
The grid of outlet connection, the PM25 and NM25 and the signal for the reverse data signal nd that D input inverter chain circuit generates are defeated
Outlet connection, the grid external data signal D of the PM26 and NM26;The source electrode external power supply of the PM22;The PM22's
Drain electrode is connect with the source electrode of PM23, and the drain electrode of the PM23 is connect with the source electrode of PM24, the drain electrode of the PM24 and the source of PM25
Pole connection, the drain electrode of PM25 are connect with the source electrode of PM26, and the drain electrode of the PM26 is connect with the drain electrode of NM26, the NM22,
The drain electrode of NM23, NM24, NM25, NM26 are connect with the signal output end of the reset signal r of set-reset signal generating circuit;
The source grounding of described NM22, NM23, NM24, NM25, NM26.
By Fig. 1, Fig. 5 as it can be seen that the main DICE latch cicuit of the present embodiment be by 21 PMOS tube PM27, PM28, PM29,
PM30、PM31、PM32、PM33、PM34、PM35 、PM36、PM37、PM38、PM39、PM40、PM41、PM42 、PM43、PM44、
PM45, PM46, PM47 and 24 NMOS tube NM27, NM28, NM29, NM30, NM31, NM32, NM33, NM34, NM35, NM36,
NM37, NM38, NM39, NM40, NM41, NM42, NM43, NM44, NM45, NM46, NM47, NM48, NM49, NM50 and
6 transmission gate TM1, TM2, TM3, TM4, TM5, TM6 compositions;The grid external data signal D of the PM27, and the grid with NM27
Extremely it is connected, the source electrode external power supply of PM27, drain electrode connects with the left data input port of the drain electrode of NM27 and transmission gate TM1 respectively
It connects, the right side data port of the transmission gate TM1 grid with the drain electrode of the grid of PM32, PM31 and NM31 and NM41 respectively
Connection;The grid external data signal d1 of the PM28, and be connected with the grid of NM28, the source electrode external power supply of PM28, drain electrode
It is connect respectively with the left data input port of the drain electrode of NM28 and transmission gate TM2, the right side data port of the transmission gate TM2
It is connect respectively with the grid of the drain electrode of the grid of PM36, PM35 and NM35 and NM33;The grid external data of the PM29 is believed
Number d2, and being connected with the grid of NM29, the source electrode external power supply of PM29, drain electrode respectively with the drain electrode of NM29 and transmission gate TM3
Left data input port connection, the right side data port of the transmission gate TM3 respectively with the grid of PM40, PM39 and NM39
The connection of the grid of drain electrode and NM37;The grid of the PM30 respectively with the drain electrode of the drain electrode of PM41 and NM41, PM44 and NM44,
The grid of NM38 is connected, the source electrode external power supply of PM30, and drain electrode connects with the source electrode of PM31;The grid of the PM31 and clock are anti-
Phase device chain circuit generate inverting clock signal nclk1 signal output end connection, PM31 drain electrode respectively with the drain electrode of NM31
It is connected;The grid of the NM31 is connect with the signal output end for the in-phase clock signal bclk1 that clocked inverter chain circuit generates,
Its source electrode is connected with the drain electrode of NM30;The grid of the NM30 respectively with the drain electrode of the grid of PM34, PM33 and NM33, PM42 and
The drain electrode of NM42 is connected;The drain electrode of the source electrode external power supply of the PM32, PM32 is connected with the source electrode of PM33;The grid of the PM33
Pole is connect with the signal output end of the reset signal r of set-reset signal generating circuit, PM33 drain electrode respectively with the leakage of NM33
Pole connection;The drain electrode of the source electrode and NM32 of the NM33 connects, grid and the set-reset signal generating circuit of the NM32
The signal output end of set signal sn connects;The source electrode external power supply of the PM34, PM34 drain electrode respectively with the source electrode of PM35
It is connected;The grid of the PM35 is connect with the signal output end for the inverting clock signal nclk2 that clocked inverter chain circuit generates,
The drain electrode of PM35 is connect with the drain electrode of NM35 respectively;The in-phase clock that the grid and clocked inverter chain circuit of the NM35 generates
The signal output end of signal bclk2 connects, the drain electrode connection of source electrode and NM34;The source electrode external power supply of the PM36, PM36
Drain electrode be connected with the source electrode of PM37;The signal of the reset signal r of the grid and set-reset signal generating circuit of the PM37
Output end connection, the drain electrode of PM37 are connect with the drain electrode of NM37 respectively;The drain electrode of the source electrode and NM36 of the NM37 connects, described
The grid of NM36 is connect with the signal output end of the set signal sn of set-reset signal generating circuit;Outside the source electrode of the PM38
Power supply is connect, the drain electrode of PM38 is connected with the source electrode of PM39 respectively;What the grid and clocked inverter chain circuit of the PM39 generated
The signal output end of inverting clock signal nclk3 connects, and the drain electrode of PM39 is connect with the drain electrode of NM39 respectively;The grid of the NM39
Pole is connect with the signal output end for the in-phase clock signal bclk3 that clocked inverter chain circuit generates, the leakage of source electrode and NM38
Pole connection;The drain electrode of the source electrode external power supply of the PM40, PM40 is connected with the source electrode of PM41;The grid of the PM41 and set
The signal output end of the reset signal r of reset signal generating circuit connects, and the drain electrode of PM41 is connect with the drain electrode of NM41 respectively;Institute
The drain electrode for stating the source electrode and NM40 of NM41 connects, the grid of the NM40 and the set signal sn of set-reset signal generating circuit
Signal output end connection;The signal output end of the set signal sn of the grid and set-reset signal generating circuit of the PM42
Connection, source electrode external power supply, drain electrode are connect with the left data input port of the drain electrode of NM42, transmission gate TM4 respectively;It is described
The grid of NM42 is connect with the signal output end of the reset signal r of set-reset signal generating circuit;The grid of the PM45 and
The grid of NM46 is connect with the signal output end of the set signal sn of set-reset signal generating circuit, and the source electrode of PM45 is external
Power supply, drain electrode are connect with the drain electrode of the right side data-out port, NM46 of transmission gate TM4 respectively;The source electrode of the NM46 with
The drain electrode of NM45 connects, and the signal output end of the reset signal r of the grid and set-reset signal generating circuit of the NM45 connects
It connects;The drain electrode output of the PM45 all the way data-signal m1 to from DICE latch cicuit;The grid and set-reset of the PM43
The signal output end of the set signal sn of signal generating circuit connects, source electrode external power supply, drain electrode respectively with the drain electrode of NM43,
The left data input port of transmission gate TM5 connects;The reset of the grid and set-reset signal generating circuit of the NM43 is believed
The signal output end connection of number r;The set of the grid of the PM46 and the grid of NM48 with set-reset signal generating circuit
The signal output end of signal sn connects, the source electrode external power supply of PM46, and drain electrode is exported with the right side data of transmission gate TM5 respectively
The drain electrode connection of port, NM48;The drain electrode of the source electrode and NM47 of the NM48 connects, and the grid and set-reset of the NM47 is believed
The signal output end connection of the reset signal r of number generation circuit;The PM46 drain electrode output another way data-signal m2 to from
DICE latch cicuit;The signal output end of the set signal sn of the grid and set-reset signal generating circuit of the PM44 connects
It connects, source electrode external power supply, drain electrode is connect with the left data input port of the drain electrode of NM44, transmission gate TM6 respectively;It is described
The grid of NM44 is connect with the signal output end of the reset signal r of set-reset signal generating circuit;The grid of the PM47 and
The grid of NM50 is connect with the signal output end of the set signal sn of set-reset signal generating circuit, and the source electrode of PM47 is external
Power supply, drain electrode are connect with the drain electrode of the right side data-out port, NM50 of transmission gate TM6 respectively;The source electrode of the NM50 with
The drain electrode of NM49 connects, and the signal output end of the reset signal r of the grid and set-reset signal generating circuit of the NM49 connects
It connects;The drain electrode output another way data-signal m3 of the PM47 is extremely from DICE latch cicuit;The NM27, NM28, NM29,
The source grounding of NM30, NM32, NM34, NM36, NM38, NM40, NM42, NM43, NM44, NM45, NM47, NM49;It is described
The signal output end for the inverting clock signal nclk1 that the same phase control end of transmission gate TM1 and clocked inverter chain circuit generate connects
It connects, the signal output end for the in-phase clock signal bclk1 that the inverted control terminals and clocked inverter chain circuit of transmission gate TM1 generate
The signal for the inverting clock signal nclk2 that connection, the same phase control end of the transmission gate TM2 and clocked inverter chain circuit generate
Output end connection, the letter for the in-phase clock signal bclk2 that the inverted control terminals and clocked inverter chain circuit of transmission gate TM2 generate
The inverting clock signal that the connection of number output end, the same phase control end of the transmission gate TM3 and clocked inverter chain circuit generate
The signal output end of nclk3 connects, and the in-phase clock that the inverted control terminals and clocked inverter chain circuit of transmission gate TM3 generate is believed
The signal output end connection of number bclk3, the reverse phase that the inverted control terminals and clocked inverter chain circuit of the transmission gate TM4 generate
The signal output end of clock signal nclk1 connects, and same phase control end and the clocked inverter chain circuit of transmission gate TM4 generates same
The signal output end of clock signal bclk1 connects, and the inverted control terminals and clocked inverter chain circuit of the transmission gate TM5 are raw
At inverting clock signal nclk2 signal output end connection, the same phase control end of transmission gate TM5 and clocked inverter chain circuit
The signal output end of the in-phase clock signal bclk2 of generation connects;The inverted control terminals and clocked inverter of the transmission gate TM6
The signal output end connection for the inverting clock signal nclk3 that chain circuit generates, the same phase control end of transmission gate TM6 and clock inversion
The signal output end connection for the in-phase clock signal bclk3 that device chain circuit generates.
By Fig. 1, Fig. 6 as it can be seen that the slave DICE latch cicuit of the present embodiment be by 15 PMOS tube PM48, PM49, PM50,
PM51, PM52, PM53, PM54, PM55, PM56, PM57, PM58, PM59, PM60, PM61, PM62 and 15 NMOS tube NM51,
NM52, NM53, NM54, NM55, NM56, NM57, NM58, NM59, NM60, NM61, NM62, NM63, NM64, NM65 composition;Institute
The signal output end for stating the grid of PM48 and the reset signal r of set-reset signal generating circuit is connect, source electrode external power supply, leakage
The connection of the source electrode of pole and PM49;The grid of PM49 grid with the drain electrode of PM59 and NM62, the grid of NM60 and PM60 respectively
The connection of the grid of pole and NM63, drain electrode are connected with the source electrode of PM50;The grid and clocked inverter chain circuit of the PM50
The signal output end of the in-phase clock signal bclk1 of generation connects, the grid with the drain electrode of NM53, PM51 respectively that drain of PM50
Pole, NM62 grid with the output end of data-signal m1 connects all the way in main DICE latch cicuit;The grid of the NM53 and when
The signal output end of the inverting clock signal nclk1 of clock chain of inverters circuit evolving connects, and source electrode is connected with the drain electrode of NM52;
The grid of the NM52 is connect with the grid of the drain electrode of PM51 and NM54, the grid of PM53 and PM62 and NM65 respectively, source
Pole is connected with the drain electrode of NM51;The signal of the set signal sn of the grid and set-reset signal generating circuit of the NM51 exports
End connection;The source electrode external power supply of the PM51, drain electrode are connect with the drain electrode of NM54;The grid of the NM54 respectively with PM54 and
The drain electrode of NM57, PM55 grid with the output end of data-signal m2 connects all the way in main DICE latch cicuit;The PM52's
Grid is connect with the signal output end of the reset signal r of set-reset signal generating circuit, source electrode external power supply, drain electrode and PM53
Source electrode connection;The drain electrode of the PM53 is connected with the source electrode of PM54;The grid and clocked inverter chain circuit of the PM54 is raw
At in-phase clock signal bclk2 signal output end connection, the drain electrode of PM54 connect with the drain electrode of NM57;The grid of the NM57
Pole is connect with the signal output end for the inverting clock signal nclk2 that clocked inverter chain circuit generates, the leakage of source electrode and NM56
Extremely it is connected;The source electrode of the NM56 is connected with the drain electrode of NM55;The grid of the NM55 and set-reset signal generating circuit
The signal output end of set signal sn connects;The source electrode external power supply of the PM55, drain electrode are connect with the drain electrode of NM58;It is described
The grid of NM58 respectively with the drain electrode of PM58 and NM61, PM59 grid and main DICE latch cicuit in data-signal m3 all the way
Output end connection;The grid of the PM56 is connect with the signal output end of the reset signal r of set-reset signal generating circuit, source
Pole external power supply, drain electrode are connect with the source electrode of PM57;The drain electrode of the PM57 is connected with the source electrode of PM58;The grid of the PM58
It is connect with the signal output end of the in-phase clock signal bclk3 of clocked inverter chain circuit generation, the drain electrode of PM58 is with NM61's
Drain electrode connection;The signal output end for the inverting clock signal nclk3 that the grid and clocked inverter chain circuit of the NM61 generates
Connection, source electrode are connected with the drain electrode of NM60;The source electrode of the NM60 is connected with the drain electrode of NM59;The grid of the NM59 with set
The signal output end connection of the set signal sn of position reset signal generating circuit;The source electrode external power supply of the PM59, drain electrode with
The drain electrode of NM62 connects;The source electrode external power supply of the PM60, drain electrode are connect with the source electrode of PM61;The grid of the PM61 with
The grid of NM64 connects, and drain electrode is connect with the source electrode of PM62, and the drain electrode of the PM62 is connect with the drain electrode of NM65;The NM65
Source electrode be connected with the drain electrode of NM64, the drain electrode of the source electrode of NM64 and NM63 connect;The drain electrode outputting data signals of the PM62
Q;The source grounding of described NM51, NM54, NM55, NM58, NM59, NM62, NM63.
As seen from Figure 7, the present embodiment generated on timing diagram from reset signal r as can be seen that nclk1 signal be by PM1 and
The inverting clock signal that the phase inverter that NM1 is constituted generates, certain delay can be generated relative to CK signal, likewise, bclk1 believes
It number is the in-phase clock signal that the phase inverter being made of PM2 and NM2 generates, there is also certain to prolong relative to nclk1 by bclk1
When, the appropriate breadth length ratio that each metal-oxide-semiconductor in clocked inverter chain circuit is arranged, nclk2 can be made with respect to bclk1, and there are one
Fixed delay, there is also certain delays with respect to nclk2 by bclk2.
If when data input pin D receives a SET positive pulse, this positive pulse is possible to meeting in rising edge clock
Allow the TICE structure of trigger to store data of this mistake, but generating in reset signal r can be on timing diagram just
Find out, in the period between two dotted lines, D, nd, d1, nclk1 and bclk2 are all in low level state, and in Fig. 4
The nor gate that NM22 ~ NM26 and PM22 ~ PM26 are constituted, simultaneously and if only if D, nd, d1, nclk1 and bclk2 this five signals
When for low level, exporting as r is high level, and when r signal is high level, it can be latched by main TICE latch cicuit and from TICE
Circuit resets simultaneously, so that it is guaranteed that trigger is not influenced by SET positive pulse.
In the present embodiment, r signal is high level effectively and sn signal is when being that high level is invalid, main TICE and is in from TICE
Reset state, the principle resetted are as follows: PM33 and PM42 cut-off, NM42 conducting, so that node a1 be made to be reset to low level.
PM37 and PM43 cut-off, NM43 conducting, so that node a2 be made to be reset to low level.PM41 and PM44 cut-off, NM44 conducting, thus
Node a3 is set to be reset to low level.
In the present embodiment, PM45 and PM48 cut-off, NM45 and NM46 are connected, so that node m1 be made to be reset to low level.
PM46 and PM52 cut-off, NM47 and NM48 conducting, so that node m2 be made to be reset to low level.PM47 and PM56 cut-off, NM49 and
NM50 conducting, so that node m3 be made to be reset to low level.When m1, m2 and m3 are reset to low level, by TICE, mutually latch is acted on
It influences, q1, q2 and q3 can become high level, be low level so as to cause output Q.
Similar, as seen from Figure 8, in the present embodiment, if data input pin D receives a SET in rising edge clock
When negative pulse, this negative pulse is possible to that the TICE structure of trigger can be allowed to store the data of this mistake just, but
It is generated in the period that can be seen that on timing diagram between two dotted lines in set signal sn, D, nd, d1, CK and nclk2 are
The NAND gate that NM17 ~ NM21 and PM17 ~ PM21 in high level state, and in Fig. 4 are constituted, and if only if D, d1, d2, CK
With this five signals of nclk2 simultaneously be high level when, exporting as sn is low level, and when sn signal be low level when, can be by master
TICE latch cicuit and from TICE latch cicuit simultaneously set, so that it is guaranteed that trigger is not influenced by SET negative pulse.
In the present embodiment, sn signal is low level effectively and r signal is when being that low level is invalid, main TICE and is in from TICE
The principle of SM set mode, set is as follows: NM32 and NM42 cut-off, PM42 conducting, to make node a1 set high level.
NM36 and NM43 cut-off, PM43 conducting, to make node a2 set high level.NM40 and NM44 cut-off, PM44 conducting, thus
Make node a3 set high level.
In the present embodiment, PM45 conducting, NM45, NM46 and NM51 cut-off, to make node m1 set high level.PM46
Conducting, NM47, NM48 and NM55 cut-off, to make node m2 set high level.PM47 conducting, NM49, NM50 and NM59 are cut
Only, to make node m3 set high level.When m1, m2 and m3 set are high level, function influence is mutually latched by TICE,
Q1, q2 and q3 can become low level, be high level so as to cause output Q.
It mutually latches flip-flop circuit and based on the filtering of previous C cell in three tunnels based on SET detection described in the present embodiment
Radioresistance trigger is compared, and to more advanced in the SET pulse processing mode of data input pin, be embodied in and withouted waiting for inputting
The filtering of data, the data no matter sampled are high level or low level, can all be sent directly into main TICE latches
Get up, then judges whether the data being sent into are SET pulse and decide whether pair by set-reset signal generating circuit
Trigger carries out set or reset, reduces the biggish settling time of filtering wave by prolonging time generation, to make the timing of trigger
Performance is more preferable.
The above is only the embodiments of the present invention, not imposes any restrictions to the utility model, all according to this
Utility model technical spirit any simple modification, change and the variation of equivalent method to the above embodiments, still belong to
In in the protection scope of technical solutions of the utility model.
Claims (1)
1. flip-flop circuit is mutually latched on a kind of three tunnels detected based on transmission gate and SET, it is characterised in that: mutually latch on three tunnel
Flip-flop circuit includes clocked inverter chain circuit, D input inverter chain circuit, set-reset signal generating circuit, main DICE
Latch cicuit and from DICE latch cicuit;External clock signal CK is separately input to clocked inverter chain circuit and set-reset
Signal generating circuit, external clock signal CK through clocked inverter chain circuit generate three road in-phase clock signal bclk1,
Bclk2, bclk3 and three road inverting clock signal nclk1, nclk2, nclk3;It is anti-that external data signal D is separately input to D input
Phase device chain circuit and set-reset signal generating circuit, external data signal D generate two circuit-switched datas through D input inverter chain circuit
Signal d1, d2 and all the way anti-phase data signal nd;Clock signal CK, data-signal D, D input inverter chain circuit generate all the way
Data-signal d1 and all the way anti-phase data signal nd and two road inverting clock signal nclk1, nclk2 and all the way in-phase clock are believed
Number bclk2 exports set signal sn and reset signal r after set-reset signal generating circuit;The data-signal D, three tunnels are same
Clock signal bclk1, bclk2, bclk3 and three road inverting clock signal nclk1, nclk2, nclk3 and two circuit-switched data signals
D1, d2 and set signal sn and reset signal r are input to main DICE latch cicuit, export three tunnels after main DICE latch cicuit
Data-signal m1, m2, m3;The set signal sn and reset signal r, three Lu Tongxiang of the set-reset signal generating circuit output
Clock signal bclk1, bclk2, bclk3 and three road inverting clock signal nclk1, nclk2, nclk3 and main DICE latch electricity
Three data signal m1, m2 and m3 of road output are input to from DICE latch cicuit, then defeated after from DICE latch cicuit
Data-signal Q out;
The clocked inverter chain circuit be by 12 PMOS tube PM1, PM2, PM3, PM4, PM5, PM6, PM7, PM8, PM9,
PM10, PM11, PM12 and 12 NMOS tube NM1, NM2, NM3, NM4, NM5, NM6, NM7, NM8, NM9, NM10, NM11,
NM12 composition;The PM1 and NM1, PM2 and NM2, PM3 and NM3, PM4 and NM4, PM5 and NM5, PM6 and NM6, PM7 and NM7,
PM8 and NM8, PM9 and NM9, PM10 and NM10, PM11 and NM11, PM12 and NM12 respectively constitute a phase inverter, the clock letter
Number CK is connect with the input terminal of phase inverter PM1 and NM1, and inverting clock signal nclk1 is exported after inverted device PM1 and NM1;It is described
The input terminal of phase inverter PM2 and NM2 are connect with the output end of phase inverter PM1 and NM1, export same phase after inverted device PM2 and NM2
Clock signal bclk1;The input terminal of the phase inverter PM3 and NM3 is connect with clock signal CK, output end and phase inverter PM4 and
The input terminal of NM4 connects, and the input terminal of the phase inverter PM5 and NM5 is connect with the output end of phase inverter PM4 and NM4, exports
End is connect with the input terminal of phase inverter PM6 and NM6, after clock signal CK inverted device PM3 and NM3, PM4 and NM4, PM5 and NM5
In-phase clock signal bclk2 is exported after exporting inverting clock signal nclk2, then inverted device PM6 and NM6;The phase inverter PM7
It is connect with the input terminal of NM7 with clock signal CK, output end is connect with the input terminal of phase inverter PM8 and NM8, the phase inverter
The input terminal of PM9 and NM9 is connect with the output end of phase inverter PM8 and NM8, the input of output end and phase inverter PM10 and NM10
End connection, the input terminal of the phase inverter PM11 and NM11 connect with the output end of phase inverter PM10 and NM10, output end and
Phase inverter PM12 is connected with the input terminal of NM12, clock signal CK inverted device PM7 and NM7, PM8 and NM8, PM9 and NM9,
When output is with phase after output inverting clock signal nclk3, then inverted device PM12 and NM12 after PM10 and NM10, PM11 and NM11
Clock signal bclk3;
The D input inverter chain circuit be by 4 PMOS tube PM13, PM14, PM15, PM16 and 4 NMOS tube NM13,
NM14, NM15, NM16 composition;The PM13 and NM13, PM14 and NM14, PM15 and NM15, PM16 and NM16 respectively constitute one
Phase inverter;The data-signal D is connect with the input terminal of phase inverter PM13 and NM13, is exported after inverted device PM13 and NM13 anti-
To data-signal nd;The anti-phase data signal nd is input to the input terminal of phase inverter PM14 and NM14, inverted device PM14 and
Outputting data signals d1 after NM14;The input terminal of the phase inverter PM15 and NM15 and the output end of phase inverter PM14 and NM14 connect
It connects, output end exports reverse data signal nd1, and the anti-phase data signal nd1 is input to the input of phase inverter PM16 and NM16
It holds, outputting data signals d2 after inverted device PM16 and NM16;
The set-reset signal generating circuit be by 10 PMOS tube PM17, PM18, PM19, PM20, PM21, PM22, PM23,
PM24, PM25, PM26 and 10 NMOS tubes NM17, NM18, NM19, NM20, NM21, NM22, NM23, NM24, NM25, NM26
Composition;The grid of the PM21 and NM21 is connect with the output end of clock signal CK;The grid and clock of the PM20 and NM20
The signal output end of the inverting clock signal nclk2 of chain of inverters circuit evolving connects, and the grid and D of the PM19 and NM19 are defeated
Enter the signal output end connection of the data-signal d1 of chain of inverters circuit evolving, grid and the D input of the PM18 and NM18 are anti-
The grid external data letter of the signal output end connection for the reverse data signal nd that phase device chain circuit generates, the PM17 and NM17
Number D;The equal external power supply of the source electrode of described PM17, PM18, PM19, PM20, PM21;Described PM17, PM18, PM19, PM20, PM21
Drain electrode connect with the signal output end of the set signal sn of set-reset signal generating circuit;The drain electrode of the NM21 with
The drain electrode of PM17 connects, and the source electrode of NM21 is connected with the drain electrode of NM20, and the source electrode of NM20 is connected with the drain electrode of NM19, the source of NM19
Pole is connected with the drain electrode of NM18, and the source electrode of NM18 is connected with the drain electrode of NM17, the source electrode ground connection of NM17;The PM22's and NM22
Grid is connect with the signal output end for the inverting clock signal nclk1 that clocked inverter chain circuit generates;The PM23 and NM23
The signal output end of in-phase clock signal bclk2 that generates of grid and clocked inverter chain circuit connect, the PM24 and
The grid of NM24 is connect with the signal output end for the data-signal d1 that D input inverter chain circuit generates, the PM25 and NM25
The signal output end of reverse data signal nd that generates of grid and D input inverter chain circuit connect, the PM26 and NM26
Grid external data signal D;The source electrode external power supply of the PM22;The drain electrode of the PM22 is connect with the source electrode of PM23, institute
The drain electrode for stating PM23 is connect with the source electrode of PM24, and the drain electrode of the PM24 is connect with the source electrode of PM25, the drain electrode of PM25 and PM26
Source electrode connection, the drain electrode of the PM26 connect with the drain electrode of NM26, the drain electrode of described NM22, NM23, NM24, NM25, NM26
It is connect with the signal output end of the reset signal r of set-reset signal generating circuit;The NM22, NM23, NM24, NM25,
The source grounding of NM26;
The main DICE latch cicuit be by 21 PMOS tube PM27, PM28, PM29, PM30, PM31, PM32, PM33, PM34,
PM35, PM36, PM37, PM38, PM39, PM40, PM41, PM42, PM43, PM44, PM45, PM46, PM47 and 24 NMOS
Pipe NM27, NM28, NM29, NM30, NM31, NM32, NM33, NM34, NM35, NM36, NM37, NM38, NM39, NM40,
NM41, NM42, NM43, NM44, NM45, NM46, NM47, NM48, NM49, NM50 and 6 transmission gate TM1, TM2, TM3,
TM4, TM5, TM6 composition;The grid external data signal D of the PM27, and be connected with the grid of NM27, the source electrode of PM27 is external
Power supply, drain electrode are connect with the left data input port of the drain electrode of NM27 and transmission gate TM1 respectively, the right side of the transmission gate TM1
Side data port is connect with the grid of the drain electrode of the grid of PM32, PM31 and NM31 and NM41 respectively;The grid of the PM28
External data signal d1, and being connected with the grid of NM28, the source electrode external power supply of PM28, drain electrode respectively with the drain electrode of NM28 and biography
The left data input port of defeated door TM2 connects, the right side data port of the transmission gate TM2 respectively with the grid of PM36,
PM35 is connected with the grid of the drain electrode of NM35 and NM33;The grid external data signal d2 of the PM29, and the grid with NM29
Extremely it is connected, the source electrode external power supply of PM29, drain electrode connects with the left data input port of the drain electrode of NM29 and transmission gate TM3 respectively
It connects, the right side data port of the transmission gate TM3 grid with the drain electrode of the grid of PM40, PM39 and NM39 and NM37 respectively
Connection;The grid of the PM30 is connected with the grid of the drain electrode of the drain electrode of PM41 and NM41, PM44 and NM44, NM38 respectively,
The source electrode external power supply of PM30, drain electrode connect with the source electrode of PM31;The grid and clocked inverter chain circuit of the PM31 generates
Inverting clock signal nclk1 signal output end connection, the drain electrode of PM31 is connected with the drain electrode of NM31 respectively;The NM31's
Grid is connect with the signal output end for the in-phase clock signal bclk1 that clocked inverter chain circuit generates, source electrode and NM30's
Drain electrode is connected;The grid of the NM30 drain electrode phase with the drain electrode of the grid of PM34, PM33 and NM33, PM42 and NM42 respectively
Even;The drain electrode of the source electrode external power supply of the PM32, PM32 is connected with the source electrode of PM33;The grid and set-reset of the PM33
The signal output end of the reset signal r of signal generating circuit connects, and the drain electrode of PM33 is connect with the drain electrode of NM33 respectively;It is described
The drain electrode of the source electrode and NM32 of NM33 connects, the set signal sn's of the grid and set-reset signal generating circuit of the NM32
Signal output end connection;The drain electrode of the source electrode external power supply of the PM34, PM34 is connected with the source electrode of PM35 respectively;The PM35
The signal output end of inverting clock signal nclk2 that generates of grid and clocked inverter chain circuit connect, the drain electrode point of PM35
It is not connect with the drain electrode of NM35;The in-phase clock signal bclk2's that the grid and clocked inverter chain circuit of the NM35 generates
Signal output end connection, the drain electrode connection of source electrode and NM34;The source electrode external power supply of the PM36, the drain electrode of PM36 and PM37
Source electrode be connected;The grid of the PM37 is connect with the signal output end of the reset signal r of set-reset signal generating circuit,
The drain electrode of PM37 is connect with the drain electrode of NM37 respectively;The drain electrode of the source electrode and NM36 of the NM37 connects, the grid of the NM36
It is connect with the signal output end of the set signal sn of set-reset signal generating circuit;The source electrode external power supply of the PM38,
The drain electrode of PM38 is connected with the source electrode of PM39 respectively;The inversion clock that the grid and clocked inverter chain circuit of the PM39 generates
The signal output end of signal nclk3 connects, and the drain electrode of PM39 is connect with the drain electrode of NM39 respectively;The grid and clock of the NM39
The signal output end of the in-phase clock signal bclk3 of chain of inverters circuit evolving connects, the drain electrode connection of source electrode and NM38;Institute
The source electrode external power supply of PM40 is stated, the drain electrode of PM40 is connected with the source electrode of PM41;The grid and set-reset signal of the PM41
The signal output end of the reset signal r of generation circuit connects, and the drain electrode of PM41 is connect with the drain electrode of NM41 respectively;The NM41's
The drain electrode of source electrode and NM40 connect, and the signal of the set signal sn of the grid and set-reset signal generating circuit of the NM40 is defeated
Outlet connection;The grid of the PM42 is connect with the signal output end of the set signal sn of set-reset signal generating circuit,
Source electrode external power supply, drain electrode are connect with the left data input port of the drain electrode of NM42, transmission gate TM4 respectively;The NM42's
Grid is connect with the signal output end of the reset signal r of set-reset signal generating circuit;The grid of the PM45 and NM46's
Grid is connect with the signal output end of the set signal sn of set-reset signal generating circuit, the source electrode external power supply of PM45,
Its drain electrode is connect with the drain electrode of the right side data-out port, NM46 of transmission gate TM4 respectively;The source electrode of the NM46 and NM45's
Drain electrode connection, the signal output end of the reset signal r of the grid and set-reset signal generating circuit of the NM45 are connect;It is described
The drain electrode output of PM45 all the way data-signal m1 to from DICE latch cicuit;The grid and set-reset signal of the PM43 generates
The signal output end of the set signal sn of circuit connects, source electrode external power supply, drain electrode respectively with the drain electrode of NM43, transmission gate
The left data input port of TM5 connects;The letter of the reset signal r of the grid and set-reset signal generating circuit of the NM43
The connection of number output end;The grid of the PM46 and the grid of NM48 are with the set signal sn's of set-reset signal generating circuit
Signal output end connection, the source electrode external power supply of PM46, drain electrode respectively with the right side data-out port of transmission gate TM5,
The drain electrode of NM48 connects;The drain electrode of the source electrode and NM47 of the NM48 connects, and the grid and set-reset signal of the NM47 produces
The signal output end connection of the reset signal r of raw circuit;The drain electrode output another way data-signal m2 of the PM46 is extremely from DICE
Latch cicuit;The grid of the PM44 is connect with the signal output end of the set signal sn of set-reset signal generating circuit,
Source electrode external power supply, drain electrode are connect with the left data input port of the drain electrode of NM44, transmission gate TM6 respectively;The NM44's
Grid is connect with the signal output end of the reset signal r of set-reset signal generating circuit;The grid of the PM47 and NM50's
Grid is connect with the signal output end of the set signal sn of set-reset signal generating circuit, the source electrode external power supply of PM47,
Its drain electrode is connect with the drain electrode of the right side data-out port, NM50 of transmission gate TM6 respectively;The source electrode of the NM50 and NM49's
Drain electrode connection, the signal output end of the reset signal r of the grid and set-reset signal generating circuit of the NM49 are connect;It is described
The drain electrode output another way data-signal m3 of PM47 is extremely from DICE latch cicuit;The NM27, NM28, NM29, NM30, NM32,
The source grounding of NM34, NM36, NM38, NM40, NM42, NM43, NM44, NM45, NM47, NM49;The transmission gate TM1
The signal output end of inverting clock signal nclk1 that generates of same phase control end and clocked inverter chain circuit connect, transmission gate
The inverted control terminals of TM1 are connect with the signal output end for the in-phase clock signal bclk1 that clocked inverter chain circuit generates, described
The signal output end for the inverting clock signal nclk2 that the same phase control end of transmission gate TM2 and clocked inverter chain circuit generate connects
It connects, the signal output end for the in-phase clock signal bclk2 that the inverted control terminals and clocked inverter chain circuit of transmission gate TM2 generate
The signal for the inverting clock signal nclk3 that connection, the same phase control end of the transmission gate TM3 and clocked inverter chain circuit generate
Output end connection, the letter for the in-phase clock signal bclk3 that the inverted control terminals and clocked inverter chain circuit of transmission gate TM3 generate
The connection of number output end, the inverting clock signal that the inverted control terminals and clocked inverter chain circuit of the transmission gate TM4 generate
The signal output end of nclk1 connects, and the in-phase clock of the same phase control end of transmission gate TM4 and the generation of clocked inverter chain circuit is believed
The signal output end connection of number bclk1, the reverse phase that the inverted control terminals and clocked inverter chain circuit of the transmission gate TM5 generate
The signal output end of clock signal nclk2 connects, and same phase control end and the clocked inverter chain circuit of transmission gate TM5 generates same
The signal output end of clock signal bclk2 connects;The inverted control terminals and clocked inverter chain circuit of the transmission gate TM6 are raw
At inverting clock signal nclk3 signal output end connection, the same phase control end of transmission gate TM6 and clocked inverter chain circuit
The signal output end of the in-phase clock signal bclk3 of generation connects;
It is described from DICE latch cicuit be by 15 PMOS tube PM48, PM49, PM50, PM51, PM52, PM53, PM54, PM55,
PM56, PM57, PM58, PM59, PM60, PM61, PM62 and 15 NMOS tube NM51, NM52, NM53, NM54, NM55, NM56,
NM57, NM58, NM59, NM60, NM61, NM62, NM63, NM64, NM65 composition;The grid and set-reset signal of the PM48
The signal output end of the reset signal r of generation circuit connects, source electrode external power supply, and drain electrode is connect with the source electrode of PM49;It is described
The grid of PM49 is connect with the grid of the drain electrode of PM59 and NM62, the grid of the grid of NM60 and PM60 and NM63 respectively,
Drain electrode is connected with the source electrode of PM50;The in-phase clock signal bclk1 that the grid and clocked inverter chain circuit of the PM50 generates
Signal output end connection, PM50 drain electrode respectively with the drain electrode of NM53, the grid of PM51, the grid of NM62 and main DICE latch
The output end connection of data-signal m1 all the way in circuit;When the reverse phase that the grid and clocked inverter chain circuit of the NM53 generates
The signal output end of clock signal nclk1 connects, and source electrode is connected with the drain electrode of NM52;The grid of the NM52 respectively with PM51 and
The drain electrode of NM54, the grid of PM53 and PM62 are connected with the grid of NM65, and source electrode is connected with the drain electrode of NM51;The NM51
Grid connect with the signal output end of the set signal sn of set-reset signal generating circuit;The external electricity of the source electrode of the PM51
Source, drain electrode are connect with the drain electrode of NM54;The grid of the NM54 respectively with the drain electrode of PM54 and NM57, the grid of PM55 and master
The output end connection of data-signal m2 all the way in DICE latch cicuit;The grid and set-reset signal generating circuit of the PM52
Reset signal r signal output end connection, source electrode external power supply, drain electrode connect with the source electrode of PM53;The drain electrode of the PM53
It is connected with the source electrode of PM54;The letter for the in-phase clock signal bclk2 that the grid and clocked inverter chain circuit of the PM54 generates
The connection of number output end, the drain electrode of PM54 are connect with the drain electrode of NM57;The grid and clocked inverter chain circuit of the NM57 generates
Inverting clock signal nclk2 signal output end connection, source electrode is connected with the drain electrode of NM56;The source electrode of the NM56 with
The drain electrode of NM55 is connected;The signal output end of the set signal sn of the grid and set-reset signal generating circuit of the NM55 connects
It connects;The source electrode external power supply of the PM55, drain electrode are connect with the drain electrode of NM58;The grid of the NM58 respectively with PM58 and NM61
Drain electrode, PM59 grid with the output end of data-signal m3 connects all the way in main DICE latch cicuit;The grid of the PM56
It is connect with the signal output end of the reset signal r of set-reset signal generating circuit, source electrode external power supply, the source of drain electrode and PM57
Pole connection;The drain electrode of the PM57 is connected with the source electrode of PM58;What the grid and clocked inverter chain circuit of the PM58 generated
The signal output end of in-phase clock signal bclk3 connects, and the drain electrode of PM58 is connect with the drain electrode of NM61;The grid of the NM61 with
The signal output end connection for the inverting clock signal nclk3 that clocked inverter chain circuit generates, the drain electrode phase of source electrode and NM60
Even;The source electrode of the NM60 is connected with the drain electrode of NM59;The set of the grid and set-reset signal generating circuit of the NM59
The signal output end of signal sn connects;The source electrode external power supply of the PM59, drain electrode are connect with the drain electrode of NM62;The PM60's
Source electrode external power supply, drain electrode are connect with the source electrode of PM61;The grid of the PM61 and the grid of NM64 connect, drain electrode and PM62
Source electrode connection, the drain electrode of the PM62 connect with the drain electrode of NM65;The source electrode of the NM65 is connected with the drain electrode of NM64, NM64
Source electrode and NM63 drain electrode connect;The drain electrode outputting data signals Q of the PM62;The NM51, NM54, NM55, NM58,
The source grounding of NM59, NM62, NM63.
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