gf180mcu_fd_sc_mcu7t5v0__latrnq_1

gf180mcu_fd_sc_mcu7t5v0__latrnq_1 symbol

gf180mcu_fd_sc_mcu7t5v0__latrnq_1 symbol

gf180mcu_fd_sc_mcu7t5v0__latrnq_1 schematic

gf180mcu_fd_sc_mcu7t5v0__latrnq_1 schematic

gf180mcu_fd_sc_mcu7t5v0__latrnq_1 layout

gf180mcu_fd_sc_mcu7t5v0__latrnq_1 layout

LATRNQ_X1 is a positive D-latch, active low reset, 1X drive strength


Attributes

Attribute

Value

area

48.294400 µm2

TRUTH TABLE

Input

Output

RN

D

E

Q

H

L

H

L

H

H

H

H

H

X

L

Q

L

X

X

L

FUNCTIONAL SCHEMATIC
../../../../../_images/gf180mcu_fd_sc_mcu7t5v0__latrnq_1.png
CONSTRAINTS

Constraint Pin

Related Pin

setup(ns)

hold(ns)

D(HL)

E(HL)

0.4290

-0.3720

D(LH)

E(HL)

0.4010

-0.3490

Constraint Pin

Related Pin

recovery(ns)

removal(ns)

RN(LH)

E(HL)

0.4120

-0.3610

Constraint Pin

Related Pin

Minimum Pulse Width(ns)

E(LHL)

E(LH)

0.4950

E(LHL)

E(LH)

0.3580

RN(HLH)

RN(HL)

0.3100

RN(HLH)

RN(HL)

0.3100

PIN CAPACITANCE (pf)

Pin

Type

Capacitance (pf)

E

input

0.0074

D

input

0.0031

RN

input

0.0052

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)

E(LH)

Q(LH)

D&RN

0.0100

0.0010

0.5865

0.0402

E(LH)

Q(HL)

!D&RN

0.0100

0.0010

0.7359

0.0334

D(LH)

Q(LH)

E&RN

0.0100

0.0010

0.6376

0.0401

D(HL)

Q(HL)

E&RN

0.0100

0.0010

0.6930

0.0334

RN(HL)

Q(HL)

!D&!E

0.0100

0.0010

0.5283

0.0330

RN(HL)

Q(HL)

D&!E

0.0100

0.0010

0.5285

0.0330

RN(HL)

Q(HL)

D&E

0.0100

0.0010

0.5300

0.0331

RN(LH)

Q(LH)

D&E

0.0100

0.0010

0.6492

0.0401

DYNAMIC ENERGY

Input Pin

When Condition

Tin (ns)

Output

Out Load (pf)

Energy (uW/MHz)

E

D&RN

0.0100

Q(LH)

0.0010

0.3758

RN

!D&!E

0.0100

Q(HL)

0.0010

0.4653

RN

D&!E

0.0100

Q(HL)

0.0010

0.4663

RN

D&E

0.0100

Q(HL)

0.0010

0.4996

E

!D&RN

0.0100

Q(HL)

0.0010

0.4647

RN

D&E

0.0100

Q(LH)

0.0010

0.3731

D

E&RN

0.0100

Q(LH)

0.0010

0.3723

D

E&RN

0.0100

Q(HL)

0.0010

0.4898

D(HL)

!E&!RN

0.0100

n/a

n/a

0.0264

D(HL)

E&!RN

0.0100

n/a

n/a

0.0222

D(HL)

!E&RN

0.0100

n/a

n/a

0.0217

E(LH)

!D&!RN

0.0100

n/a

n/a

0.0072

E(LH)

D&!RN

0.0100

n/a

n/a

0.0269

E(LH)

!D&RN

0.0100

n/a

n/a

0.0000

E(LH)

D&RN

0.0100

n/a

n/a

-0.0005

D(LH)

!E&!RN

0.0100

n/a

n/a

-0.0198

D(LH)

E&!RN

0.0100

n/a

n/a

-0.0159

D(LH)

!E&RN

0.0100

n/a

n/a

-0.0198

RN(HL)

!D&!E

0.0100

n/a

n/a

0.0218

RN(HL)

D&!E

0.0100

n/a

n/a

0.0238

RN(HL)

!D&E

0.0100

n/a

n/a

0.0218

RN(LH)

!D&!E

0.0100

n/a

n/a

-0.0201

RN(LH)

!D&E

0.0100

n/a

n/a

-0.0201

RN(LH)

D&!E

0.0100

n/a

n/a

-0.0202

E(HL)

!D&!RN

0.0100

n/a

n/a

0.1494

E(HL)

!D&RN

0.0100

n/a

n/a

0.1494

E(HL)

D&!RN

0.0100

n/a

n/a

0.1498

E(HL)

D&RN

0.0100

n/a

n/a

0.1493

LEAKAGE POWER

When Condition

Power (nW)

!D&!E&!RN

0.2457

!D&E&!RN

0.2463

!D&E&RN

0.2470

D&!E&!RN

0.2459

D&E&!RN

0.2868

!D&!E&RN

0.2721

D&!E&RN

0.3106

D&E&RN

0.2682