docs/rules/device-details/cap_vpp/index.rst - skywater-pdk - Git at Google

 Vertical Parallel Plate (VPP) capacitors
 ----------------------------------------

 Spice Model Information
 ~~~~~~~~~~~~~~~~~~~~~~~

 -  Cell Name: :cell:`sky130_fd_pr__cap_vpp_XXpXxYYpY_{MM}(_shield(SS)*)(_float(FF)*)(_(VVVV))`
 -  Model Names: :model:`sky130_fd_pr__cap_vpp_*`

    -  X and Y are size dimentions
    -  MM refers to the layers which are used for the capacitance
    -  SS refers to the layers which are used as shields (`noshield` when no shield is used)
    -  FF refers to the layers which are floating.
    -  VVVVV refers to the "variant" when there are multiple devices of the same configuration

 Operating Voltages where SPICE models are valid

 -  \|V\ :sub:`c0` – V\ :sub:`c1`\ \| = 0 to 5.5V

 Details
 ~~~~~~~

 The VPP caps utilize the tight spacings of the metal lines to create capacitors using the available metal layers. The fingers go in opposite directions to minimize alignment-related variability, and the capacitor sits on field oxide to minimize silicon capacitance effects. A schematic diagram of the layout is shown below:

 .. todo::

     M3

     **M2**

     LI

     M1

     LAYOUT of M2, M3, M4

     LAYOUT of LI and M1 (with POLY sheet)

     **POLY**

     **M4**

 These capacitors are fixed-size, and they can be connected together to multiply the effective capacitance of a given node. There are two different constructions.

 Parallel VPP Capacitors
 ^^^^^^^^^^^^^^^^^^^^^^^

 These are older versions, where stacked metal lines run parallel:


 -  :model:`sky130_fd_pr__cap_vpp_08p6x07p8_m1m2_noshield` (M1 \|\| M2 only, 7.84 x 8.58)
 -  :model:`sky130_fd_pr__cap_vpp_04p4x04p6_m1m2_noshield_o2` (M1 \|\| M2 only, 4.38 x 4.59)
 -  :model:`sky130_fd_pr__cap_vpp_02p4x04p6_m1m2_noshield` (M1 \|\| M2 only, 2.19 x 4.59)
 -  :model:`sky130_fd_pr__cap_vpp_04p4x04p6_m1m2_noshield` (M1 :sub:`┴` M2, 4.4 x 4.6, 4 quadrants)
 -  :model:`sky130_fd_pr__cap_vpp_11p5x11p7_m1m2_noshield` (M1 :sub:`┴` M2, 11.5 x 11.7, 4 quadrants)
 -  :model:`sky130_fd_pr__cap_vpp_44p7x23p1_pol1m1m2m3m4m5_noshield`
 -  :model:`sky130_fd_pr__cap_vpp_02p7x06p1_m1m2m3m4_shieldl1_fingercap` (M1 \|\| M2 \|\| M3 \|\| M4, 2.7 x 5.0)
 -  :model:`sky130_fd_pr__cap_vpp_02p9x06p1_m1m2m3m4_shieldl1_fingercap2` (M1 \|\| M2 \|\| M3 \|\| M4, 2.85 x 5.0)
 -  :model:`sky130_fd_pr__cap_vpp_02p7x11p1_m1m2m3m4_shieldl1_fingercap` (M1 \|\| M2 \|\| M3 \|\| M4, 2.7 x 10.0)
 -  :model:`sky130_fd_pr__cap_vpp_02p7x21p1_m1m2m3m4_shieldl1_fingercap` (M1 \|\| M2 \|\| M3 \|\| M4, 2.7 x 20.0)
 -  :model:`sky130_fd_pr__cap_vpp_02p7x41p1_m1m2m3m4_shieldl1_fingercap` (M1 \|\| M2 \|\| M3 \|\| M4, 2.7 x 40.0)

 The symbol for these capacitors is shown below. The terminals c0 and c1 represent the two sides of the capacitor, with b as the body (sub or well).

 |symbol-cap_vpp-parallel|

 Perpendicular VPP Capacitors
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^

 These are newer versions, where stacked metal lines run perpendicular and there are shields on top and bottom:

 -  :model:`sky130_fd_pr__cap_vpp_11p5x11p7_l1m1m2m3m4_shieldm5` (11.5x11.7, with M5 shield)
 -  :model:`sky130_fd_pr__cap_vpp_11p5x11p7_l1m1m2m3m4_shieldpom5` (11.5x11.7, with poly and M5 shield)
 -  :model:`sky130_fd_pr__cap_vpp_11p5x11p7_m1m2m3m4_shieldl1m5` (11.5x11.7, with LI and M5 shield)
 -  :model:`sky130_fd_pr__cap_vpp_04p4x04p6_m1m2m3_shieldl1m5_floatm4` (4.4x4.6, M3 float, LI / M5 shield)
 -  :model:`sky130_fd_pr__cap_vpp_08p6x07p8_m1m2m3_shieldl1m5_floatm4` (8.6x7.9, M3 float, LI / M5 shield)
 -  :model:`sky130_fd_pr__cap_vpp_11p5x11p7_m1m2m3_shieldl1m5_floatm4` (11.5x11.7, M3 float, LI / M5 shield)
 -  :model:`sky130_fd_pr__cap_vpp_11p5x11p7_l1m1m2m3_shieldm4` (11.5x11.7, with M4 shield)
 -  :model:`sky130_fd_pr__cap_vpp_06p8x06p1_l1m1m2m3_shieldpom4` (6.8x6.1, with poly and M4 shield)
 -  :model:`sky130_fd_pr__cap_vpp_06p8x06p1_m1m2m3_shieldl1m4` (6.8x6.1, with LI and M4 shield)
 -  :model:`sky130_fd_pr__cap_vpp_11p3x11p8_l1m1m2m3m4_shieldm5` (11.5x11.7, over 2 :model:`sky130_fd_pr__nfet_05v0_nvt` of 10/4 each)

 The symbol for these capacitors is shown below. The terminals c0 and c1 are the two capacitor terminals, “top” represents the top shield and “sub” the bottom shield.

 |symbol-cap_vpp-perpendicular|

 The capacitors are fixed-size elements and must be used as-is; they can be used in multiples.


 .. include:: cap_vpp-table0.rst

 .. |symbol-cap_vpp-parallel| image:: symbol-cap_vpp-parallel.svg
 .. |symbol-cap_vpp-perpendicular| image:: symbol-cap_vpp-perpendicular.svg
	Vertical Parallel Plate (VPP) capacitors
	----------------------------------------

	Spice Model Information
	~~~~~~~~~~~~~~~~~~~~~~~

	- Cell Name: :cell:`sky130_fd_pr__cap_vpp_XXpXxYYpY_{MM}(_shield(SS))(_float(FF))(_(VVVV))`
	- Model Names: :model:`sky130_fd_pr__cap_vpp_*`

	- X and Y are size dimentions
	- MM refers to the layers which are used for the capacitance
	- SS refers to the layers which are used as shields (`noshield` when no shield is used)
	- FF refers to the layers which are floating.
	- VVVVV refers to the "variant" when there are multiple devices of the same configuration

	Operating Voltages where SPICE models are valid

	- \\|V\ :sub:`c0` – V\ :sub:`c1`\ \\| = 0 to 5.5V

	Details
	~~~~~~~

	The VPP caps utilize the tight spacings of the metal lines to create capacitors using the available metal layers. The fingers go in opposite directions to minimize alignment-related variability, and the capacitor sits on field oxide to minimize silicon capacitance effects. A schematic diagram of the layout is shown below:

	.. todo::

	M3

	M2

	LI

	M1

	LAYOUT of M2, M3, M4

	LAYOUT of LI and M1 (with POLY sheet)

	POLY

	M4

	These capacitors are fixed-size, and they can be connected together to multiply the effective capacitance of a given node. There are two different constructions.

	Parallel VPP Capacitors
	^^^^^^^^^^^^^^^^^^^^^^^

	These are older versions, where stacked metal lines run parallel:


	- :model:`sky130_fd_pr__cap_vpp_08p6x07p8_m1m2_noshield` (M1 \\|\\| M2 only, 7.84 x 8.58)
	- :model:`sky130_fd_pr__cap_vpp_04p4x04p6_m1m2_noshield_o2` (M1 \\|\\| M2 only, 4.38 x 4.59)
	- :model:`sky130_fd_pr__cap_vpp_02p4x04p6_m1m2_noshield` (M1 \\|\\| M2 only, 2.19 x 4.59)
	- :model:`sky130_fd_pr__cap_vpp_04p4x04p6_m1m2_noshield` (M1 :sub:`┴` M2, 4.4 x 4.6, 4 quadrants)
	- :model:`sky130_fd_pr__cap_vpp_11p5x11p7_m1m2_noshield` (M1 :sub:`┴` M2, 11.5 x 11.7, 4 quadrants)
	- :model:`sky130_fd_pr__cap_vpp_44p7x23p1_pol1m1m2m3m4m5_noshield`
	- :model:`sky130_fd_pr__cap_vpp_02p7x06p1_m1m2m3m4_shieldl1_fingercap` (M1 \\|\\| M2 \\|\\| M3 \\|\\| M4, 2.7 x 5.0)
	- :model:`sky130_fd_pr__cap_vpp_02p9x06p1_m1m2m3m4_shieldl1_fingercap2` (M1 \\|\\| M2 \\|\\| M3 \\|\\| M4, 2.85 x 5.0)
	- :model:`sky130_fd_pr__cap_vpp_02p7x11p1_m1m2m3m4_shieldl1_fingercap` (M1 \\|\\| M2 \\|\\| M3 \\|\\| M4, 2.7 x 10.0)
	- :model:`sky130_fd_pr__cap_vpp_02p7x21p1_m1m2m3m4_shieldl1_fingercap` (M1 \\|\\| M2 \\|\\| M3 \\|\\| M4, 2.7 x 20.0)
	- :model:`sky130_fd_pr__cap_vpp_02p7x41p1_m1m2m3m4_shieldl1_fingercap` (M1 \\|\\| M2 \\|\\| M3 \\|\\| M4, 2.7 x 40.0)

	The symbol for these capacitors is shown below. The terminals c0 and c1 represent the two sides of the capacitor, with b as the body (sub or well).

	\|symbol-cap_vpp-parallel\|

	Perpendicular VPP Capacitors
	^^^^^^^^^^^^^^^^^^^^^^^^^^^^

	These are newer versions, where stacked metal lines run perpendicular and there are shields on top and bottom:

	- :model:`sky130_fd_pr__cap_vpp_11p5x11p7_l1m1m2m3m4_shieldm5` (11.5x11.7, with M5 shield)
	- :model:`sky130_fd_pr__cap_vpp_11p5x11p7_l1m1m2m3m4_shieldpom5` (11.5x11.7, with poly and M5 shield)
	- :model:`sky130_fd_pr__cap_vpp_11p5x11p7_m1m2m3m4_shieldl1m5` (11.5x11.7, with LI and M5 shield)
	- :model:`sky130_fd_pr__cap_vpp_04p4x04p6_m1m2m3_shieldl1m5_floatm4` (4.4x4.6, M3 float, LI / M5 shield)
	- :model:`sky130_fd_pr__cap_vpp_08p6x07p8_m1m2m3_shieldl1m5_floatm4` (8.6x7.9, M3 float, LI / M5 shield)
	- :model:`sky130_fd_pr__cap_vpp_11p5x11p7_m1m2m3_shieldl1m5_floatm4` (11.5x11.7, M3 float, LI / M5 shield)
	- :model:`sky130_fd_pr__cap_vpp_11p5x11p7_l1m1m2m3_shieldm4` (11.5x11.7, with M4 shield)
	- :model:`sky130_fd_pr__cap_vpp_06p8x06p1_l1m1m2m3_shieldpom4` (6.8x6.1, with poly and M4 shield)
	- :model:`sky130_fd_pr__cap_vpp_06p8x06p1_m1m2m3_shieldl1m4` (6.8x6.1, with LI and M4 shield)
	- :model:`sky130_fd_pr__cap_vpp_11p3x11p8_l1m1m2m3m4_shieldm5` (11.5x11.7, over 2 :model:`sky130_fd_pr__nfet_05v0_nvt` of 10/4 each)

	The symbol for these capacitors is shown below. The terminals c0 and c1 are the two capacitor terminals, “top” represents the top shield and “sub” the bottom shield.

	\|symbol-cap_vpp-perpendicular\|

	The capacitors are fixed-size elements and must be used as-is; they can be used in multiples.


	.. include:: cap_vpp-table0.rst

	.. \|symbol-cap_vpp-parallel\| image:: symbol-cap_vpp-parallel.svg
	.. \|symbol-cap_vpp-perpendicular\| image:: symbol-cap_vpp-perpendicular.svg