gf180mcu_fd_sc_mcu9t5v0__dffnrnq_1

gf180mcu_fd_sc_mcu9t5v0__dffnrnq_1 symbol

gf180mcu_fd_sc_mcu9t5v0__dffnrnq_1 symbol

gf180mcu_fd_sc_mcu9t5v0__dffnrnq_1 schematic

gf180mcu_fd_sc_mcu9t5v0__dffnrnq_1 schematic

gf180mcu_fd_sc_mcu9t5v0__dffnrnq_1 layout

gf180mcu_fd_sc_mcu9t5v0__dffnrnq_1 layout
DFFNRNQ_X1 is a negative edge triggered D-type flip flop with active low reset and 1X drive strength

Attributes

Attribute

Value

area

90.316800 µm2

TRUTH TABLE

Input

Output

RN

D

CLKN

Q

H

L

L

H

H

H

L

X

X

L

FUNCTIONAL SCHEMATIC
../../../../../_images/gf180mcu_fd_sc_mcu9t5v0__dffnrnq_1.png
CONSTRAINTS

Constraint Pin

Related Pin

setup(ns)

hold(ns)

D(HL)

CLKN(HL)

0.2180

0.0690

D(LH)

CLKN(HL)

0.1260

0.1150

Constraint Pin

Related Pin

recovery(ns)

removal(ns)

RN(LH)

CLKN(HL)

-0.3210

0.5040

Constraint Pin

Related Pin

Minimum Pulse Width(ns)

CLKN(LHL)

CLKN(LH)

0.3450

CLKN(LHL)

CLKN(LH)

0.3020

CLKN(HLH)

CLKN(HL)

0.3000

CLKN(HLH)

CLKN(HL)

0.4170

RN(HLH)

RN(HL)

0.3680

RN(HLH)

RN(HL)

0.2610

RN(HLH)

RN(HL)

0.3680

RN(HLH)

RN(HL)

0.2610

PIN CAPACITANCE (pf)

Pin

Type

Capacitance (pf)

CLKN

input

0.0051

D

input

0.0042

RN

input

0.0089

DELAY AND OUTPUT TRANSITION TIME corresponding to min slew and load

Input Pin

Output

When Condition

Tin (ns)

Out Load (pf)

Delay (ns)

Tout (ns)

CLKN(HL)

Q(LH)

D&RN

0.0100

0.0010

0.6584

0.0465

CLKN(HL)

Q(HL)

!D&RN

0.0100

0.0010

0.4712

0.0339

RN(HL)

Q(HL)

!CLKN&!D

0.0100

0.0010

0.1762

0.0351

RN(HL)

Q(HL)

CLKN&!D

0.0100

0.0010

0.1760

0.0351

RN(HL)

Q(HL)

!CLKN&D

0.0100

0.0010

0.1763

0.0351

RN(HL)

Q(HL)

CLKN&D

0.0100

0.0010

0.1759

0.0352

DYNAMIC ENERGY

Input Pin

When Condition

Tin (ns)

Output

Out Load (pf)

Energy (uW/MHz)

RN

!CLKN&!D

0.0100

Q(HL)

0.0010

0.8676

RN

CLKN&!D

0.0100

Q(HL)

0.0010

0.5619

RN

!CLKN&D

0.0100

Q(HL)

0.0010

0.8673

RN

CLKN&D

0.0100

Q(HL)

0.0010

0.5802

CLKN

D&RN

0.0100

Q(LH)

0.0010

1.0475

CLKN

!D&RN

0.0100

Q(HL)

0.0010

0.8968

CLKN(LH)

!D&!RN

0.0100

n/a

n/a

0.2771

CLKN(LH)

D&!RN

0.0100

n/a

n/a

0.5094

CLKN(LH)

!D&RN

0.0100

n/a

n/a

0.2770

CLKN(LH)

D&RN

0.0100

n/a

n/a

0.2784

CLKN(HL)

!D&!RN

0.0100

n/a

n/a

0.4355

CLKN(HL)

D&!RN

0.0100

n/a

n/a

0.8944

CLKN(HL)

!D&RN

0.0100

n/a

n/a

0.4356

CLKN(HL)

D&RN

0.0100

n/a

n/a

0.4250

D(HL)

!CLKN&!RN

0.0100

n/a

n/a

0.0874

D(HL)

CLKN&!RN

0.0100

n/a

n/a

0.3369

D(HL)

!CLKN&RN

0.0100

n/a

n/a

0.0874

D(HL)

CLKN&RN

0.0100

n/a

n/a

0.3188

RN(HL)

!CLKN&!D

0.0100

n/a

n/a

0.0834

RN(HL)

CLKN&!D

0.0100

n/a

n/a

0.0808

RN(HL)

!CLKN&D

0.0100

n/a

n/a

0.0832

RN(HL)

CLKN&D

0.0100

n/a

n/a

0.0803

D(LH)

!CLKN&!RN

0.0100

n/a

n/a

0.0063

D(LH)

CLKN&!RN

0.0100

n/a

n/a

0.2086

D(LH)

!CLKN&RN

0.0100

n/a

n/a

0.0062

D(LH)

CLKN&RN

0.0100

n/a

n/a

0.2211

RN(LH)

!CLKN&!D

0.0100

n/a

n/a

-0.0766

RN(LH)

!CLKN&D

0.0100

n/a

n/a

-0.0766

RN(LH)

CLKN&!D

0.0100

n/a

n/a

-0.0766

RN(LH)

CLKN&D

0.0100

n/a

n/a

-0.0716

LEAKAGE POWER

When Condition

Power (nW)

!CLKN&!D&!RN

0.4503

!CLKN&D&!RN

0.4530

CLKN&!D&!RN

0.4102

CLKN&D&!RN

0.4104

!CLKN&!D&RN

0.4999

CLKN&!D&RN

0.4104

CLKN&D&RN

0.5583

!CLKN&D&RN

0.6413