gf180mcu_fd_sc_mcu9t5v0__icgtn_2

gf180mcu_fd_sc_mcu9t5v0__icgtn_2 symbol

gf180mcu_fd_sc_mcu9t5v0__icgtn_2 symbol

gf180mcu_fd_sc_mcu9t5v0__icgtn_2 schematic

gf180mcu_fd_sc_mcu9t5v0__icgtn_2 schematic

gf180mcu_fd_sc_mcu9t5v0__icgtn_2 layout

gf180mcu_fd_sc_mcu9t5v0__icgtn_2 layout
ICGTN_X2 is a negative-edge triggered clock-gating latch with 2X drive strength

Attributes

Attribute

Value

area

true µm2

area

latch_negedge_precontrol µm2

area

90.316800 µm2

area

true µm2

area

true µm2

area

true µm2

TRUTH TABLE

TE

E

CLKN

QDN(n+1)

Q(n+1)

L

L

H

H

H

L

H

H

L

H

H

L

H

L

H

H

H

H

L

H

X

X

L

QDN(n)

QDN(n)

FUNCTIONAL SCHEMATIC
../../../../../_images/gf180mcu_fd_sc_mcu9t5v0__icgtn_2.png
CONSTRAINTS

Constraint Pin

Related Pin

setup(ns)

hold(ns)

TE(LH)

CLKN(HL)

0.5100

-0.0860

TE(HL)

CLKN(HL)

0.4290

-0.4060

E(LH)

CLKN(HL)

0.4870

-0.0740

E(HL)

CLKN(HL)

0.4120

-0.3890

Constraint Pin

Related Pin

Minimum Pulse Width(ns)

CLKN(LHL)

CLKN(LH)

0.4170

CLKN(LHL)

CLKN(LH)

0.6810

CLKN(LHL)

CLKN(LH)

0.6500

CLKN(LHL)

CLKN(LH)

0.6140

PIN CAPACITANCE (pf)

Pin

Type

Capacitance (pf)

TE

input

0.0047

E

input

0.0047

CLKN

input

0.0112

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(HL)

!E&TE

0.0100

0.0010

0.2303

0.0392

CLKN(HL)

Q(HL)

E&!TE

0.0100

0.0010

0.2303

0.0392

CLKN(HL)

Q(HL)

E&TE

0.0100

0.0010

0.2303

0.0392

CLKN(LH)

Q(LH)

!E&!TE

0.0100

0.0010

0.1530

0.0272

CLKN(LH)

Q(LH)

!E&TE

0.0100

0.0010

0.1530

0.0272

CLKN(LH)

Q(LH)

E&!TE

0.0100

0.0010

0.1530

0.0272

CLKN(LH)

Q(LH)

E&TE

0.0100

0.0010

0.1530

0.0272

DYNAMIC ENERGY

Input Pin

When Condition

Tin (ns)

Output

Out Load (pf)

Energy (uW/MHz)

CLKN

!E&TE

0.0100

Q(HL)

0.0010

0.7965

CLKN

E&!TE

0.0100

Q(HL)

0.0010

0.7954

CLKN

E&TE

0.0100

Q(HL)

0.0010

0.7955

CLKN

!E&!TE

0.0100

Q(LH)

0.0010

0.9898

CLKN

!E&TE

0.0100

Q(LH)

0.0010

0.4424

CLKN

E&!TE

0.0100

Q(LH)

0.0010

0.4430

CLKN

E&TE

0.0100

Q(LH)

0.0010

0.4430

E(LH)

!CLKN&!TE

0.0100

n/a

n/a

-0.0439

E(LH)

!CLKN&TE

0.0100

n/a

n/a

-0.0176

E(LH)

CLKN&!TE

0.0100

n/a

n/a

0.4095

E(LH)

CLKN&TE

0.0100

n/a

n/a

-0.0129

CLKN(LH)

!E&!TE

0.0100

n/a

n/a

0.1807

CLKN(LH)

!E&TE

0.0100

n/a

n/a

0.6500

CLKN(LH)

E&!TE

0.0100

n/a

n/a

0.6241

CLKN(LH)

E&TE

0.0100

n/a

n/a

0.6185

TE(HL)

!CLKN&!E

0.0100

n/a

n/a

0.0793

TE(HL)

CLKN&!E

0.0100

n/a

n/a

0.6479

TE(HL)

CLKN&E

0.0100

n/a

n/a

0.0445

TE(HL)

!CLKN&E

0.0100

n/a

n/a

0.0446

CLKN(HL)

!E&!TE

0.0100

n/a

n/a

0.3670

E(HL)

!CLKN&!TE

0.0100

n/a

n/a

0.0481

E(HL)

!CLKN&TE

0.0100

n/a

n/a

0.0192

E(HL)

CLKN&!TE

0.0100

n/a

n/a

0.6157

E(HL)

CLKN&TE

0.0100

n/a

n/a

0.0228

TE(LH)

!CLKN&!E

0.0100

n/a

n/a

-0.0393

TE(LH)

CLKN&!E

0.0100

n/a

n/a

0.4334

TE(LH)

CLKN&E

0.0100

n/a

n/a

-0.0387

TE(LH)

!CLKN&E

0.0100

n/a

n/a

-0.0424

LEAKAGE POWER

When Condition

Power (nW)

!CLKN&!E&!TE

0.5079

!CLKN&!E&TE

0.4615

!CLKN&E&!TE

0.4343

!CLKN&E&TE

0.4343

CLKN&!E&!TE

0.3428

CLKN&!E&TE

0.3561

CLKN&E&!TE

0.3207

CLKN&E&TE

0.3207