Part Review and Datasheet Update

Looking at the datasheet of this component, can you group together pins by their functions? for example for Power, VCC, gnd_1 gnd_2 etc

NOTE: If you group them, can you not add the same pin if you already added them in a group? You should know which pin function is common for its function

flux

1:35

Read 10 knowledge entries.

Thought for a moment

Thought for 4 sec

Read STDRIVEG600 datasheet for STDRIVEG600 complete pin table pin numbe.

Read "[Datasheet for STDRIVEG600, STMicroelectronics] STDRIVEG600 complete pin table pin number pin name function description package SO-16; identify groups such as supply power ground logic inputs shutdown bootstrap high side outputs low side outputs" in stdriveg600.pdf.

Read stdriveg600.pdf.

Yes — I grouped the STDRIVEG600 pins by function with each pin assigned exactly once, avoiding duplicates like BOOT/OUT appearing in multiple groups. I added the grouping table and suggested Flux terminal properties to the STDRIVEG600 Part Review project file.

Updated project doc "STDRIVEG600 Part Review"

adrian95

apply it

flux

1:20

Thought for a moment

Thought for 2 sec

Thought for a moment

Read schematic.

Analyzing in depth.

Thought for 6 sec

Thought for a moment

Analyzing in depth.

Search docs: How to edit Terminal component properties such as Pin Type, Pin Description, Section, Pin Group, and Pin Orientation in a Flux part project without changing schematic wiring or footprint.

Thought for 11 sec

Thought for 7 sec

Thought for a moment

I've made a plan and started work on it.

Plan

#Goal

Update the STDRIVEG600 part project terminals by applying the datasheet-based pin functional grouping. Assign each of the 16 existing terminal components (pins) to exactly one group with the proper Pin Type, Pin Description, Section, Pin Group, and Pin Orientation without altering the footprint, schematic wiring, or terminal pin numbers.

#Implementation plan

Review the current terminal component assignments and the provided review file that contains the datasheet-based grouping information.
1. Identify the 16 pins: LIN (pin 1), SD/OD (pin 2), HIN (pin 3), VCC (pin 4), PVCC (pin 5), NC_1 (pin 6), SGND (pin 7), NC_2 (pin 8), PGND (pin 9), LOFF (pin 10), LON (pin 11), NC_3 (pin 12), OUT (pin 13), HOFF (pin 14), HON (pin 15), BOOT (pin 16).
2. Confirm that each physical pin is assigned to one functional group as per the datasheet grouping.
Update the terminal metadata for each pin based on the provided values:
1. Set for LIN pin:
  - Pin Type: Input
  - Pin Description: LIN Input (Low-side logic input)
  - Section: Control
  - Pin Group: Logic Inputs
  - Pin Orientation: Left
2. Set for SD/OD pin:
  - Pin Type: Bi-Directional
  - Pin Description: SD/OD (Shutdown / fault output)
  - Section: Control
  - Pin Group: Shutdown/Fault
  - Pin Orientation: Left
3. Set for HIN pin:
  - Pin Type: Input
  - Pin Description: HIN (High-side logic input)
  - Section: Control
  - Pin Group: Logic Inputs
  - Pin Orientation: Left
4. Set for VCC pin:
  - Pin Type: Power In
  - Pin Description: VCC (Logic supply)
  - Section: Power
  - Pin Group: Logic Supply
  - Pin Orientation: Top
5. Set for PVCC pin:
  - Pin Type: Power In
  - Pin Description: PVCC (Low-side driver supply)
  - Section: Power
  - Pin Group: Low-Side Driver Supply
  - Pin Orientation: Top
6. Set for NC_1 pin:
  - Pin Type: Not Connected
  - Pin Description: NC_1 (Not connected)
  - Section: No Connect
  - Pin Group: No Connect
  - Pin Orientation: Left
7. Set for SGND pin:
  - Pin Type: Ground
  - Pin Description: SGND (Signal ground)
  - Section: Ground
  - Pin Group: Signal Ground
  - Pin Orientation: Bottom
8. Set for NC_2 pin:
  - Pin Type: Not Connected
  - Pin Description: NC_2 (Not connected)
  - Section: No Connect
  - Pin Group: No Connect
  - Pin Orientation: Left
9. Set for PGND pin:
  - Pin Type: Ground
  - Pin Description: PGND (Power ground)
  - Section: Ground
  - Pin Group: Power Ground
  - Pin Orientation: Bottom
Set for LOFF pin:
- Pin Type: Output
- Pin Description: LOFF (Low-side sink output)
- Section: Gate Drive
- Pin Group: Low-Side Gate Drive
- Pin Orientation: Right
Set for LON pin:
- Pin Type: Output
- Pin Description: LON (Low-side source output)
- Section: Gate Drive
- Pin Group: Low-Side Gate Drive
- Pin Orientation: Right
Set for NC_3 pin:
- Pin Type: Not Connected
- Pin Description: NC_3 (Not connected)
- Section: No Connect
- Pin Group: No Connect
- Pin Orientation: Right
Set for OUT pin:
- Pin Type: Passive
- Pin Description: OUT (High-side floating common)
- Section: Reference
- Pin Group: High-Side Floating Reference
- Pin Orientation: Right
Set for HOFF pin:
- Pin Type: Output
- Pin Description: HOFF (High-side sink output)
- Section: Gate Drive
- Pin Group: High-Side Gate Drive
- Pin Orientation: Right
Set for HON pin:
- Pin Type: Output
- Pin Description: HON (High-side source output)
- Section: Gate Drive
- Pin Group: High-Side Gate Drive
- Pin Orientation: Right
Set for BOOT pin:
- Pin Type: Power In
- Pin Description: BOOT (Bootstrap supply)
- Section: Power
- Pin Group: Bootstrap Supply
- Pin Orientation: Top
Validate the update by verifying that all 16 terminals maintain their original pin numbers and that each pin belongs to exactly one functional group as defined by the datasheet grouping.

#Success criteria

Every pin (all 16 terminal components) is updated with the correct metadata: Pin Type, Pin Description, Section, Pin Group, and Pin Orientation.
Original terminal pin numbers, footprints, and schematic wiring remain unchanged.
No pin is assigned to multiple groups and all group assignments match the datasheet-based definition provided in the review file.

Add ESD protection

Check unconnected pins

Run ERC/DRC

Document design change

Finished working

Refine this doc

Ask about this doc

STDRIVEG600 Part Review

Scope

Reviewed available part information for the current published part project:

Project metadata/properties
Schematic terminal symbol/pin data
Footprint/pad mapping and package asset
Datasheet-derived metadata, pinout, key specs, and implementation notes

Datasheet URL was already set, so no web search/update was required:

https://www.st.com/resource/en/datasheet/stdriveg600.pdf

Part Metadata Review

Item	Project value	Datasheet / expected value	Status
Manufacturer Part Number	STDRIVEG600	STDRIVEG600	Pass
Manufacturer Name	STMicroelectronics	STMicroelectronics	Pass
Description	High voltage half-bridge gate driver for GaN transistors	Single-chip half-bridge gate driver for enhancement-mode GaN FETs or N-channel MOSFETs	Pass
Datasheet URL	ST official PDF URL set	ST official PDF URL	Pass
Designator Prefix	IC	IC/U-style driver IC prefix acceptable	Pass
Package / Case Code property	Not set in project properties	SO-16 / SOIC-16N	Warning: add `Package or Case Code = SO-16` or `SOIC-16N`
Part Type property	Not set at project level	Gate Driver / Half-Bridge Gate Driver IC	Warning: add `Part Type = Gate Driver` if available
BOM	No BOM parts listed	Part project uses terminals, so no ordinary BOM entry expected	Informational

Key Datasheet Specs

Function: high-voltage half-bridge gate driver for enhancement-mode GaN FETs or N-channel power MOSFETs.
High-side voltage capability: high-side section designed to withstand up to 600 V; suitable for bus voltages up to 500 V.
Package: SO-16.
Input logic: 3.3 V / 5 V TTL/CMOS-compatible inputs with hysteresis.
dV/dt immunity: ±200 V/ns.
Propagation delay: 45 ns typical, 30 ns min, 60 ns max.
Delay matching: 0 ns typical, 10 ns max.
Driver source/sink capability:
- At 6 V: 1.3 A source typ, 2.4 A sink typ.
- At 15 V: 5.5 A source typ, 6 A sink typ.
Recommended operating conditions:
- VCC: 4.75 V to 20 V.
- VPG = PVCC - PGND: 4.75 V to 20 V.
- VBO = BOOT - OUT: 4.4 V to 20 V.
- OUT vs SGND DC: -15 V to 520 V.
- BOOT vs SGND: 0 V to 530 V.
- Junction temperature: -40 °C to 125 °C.
- Switching frequency: up to 1 MHz, limited by dissipation.
Absolute maximum ratings:
- VCC: -0.3 V to 21 V.
- BOOT: -0.3 V to 620 V.
- Logic input pins LIN/HIN/SD/OD: -0.3 V to 21 V.
- Junction temperature: -40 °C to 150 °C.

Datasheet Pin Table vs Schematic Symbol

Pin #	Datasheet pin	Datasheet function	Project terminal	Symbol status	Current Flux Pin Type	Recommended Flux Pin Type	Mismatch / note
1	LIN	Low-side driver logic input, active high	LIN	Present	Unspecified	Input	Pin type missing
2	SD/OD	Shutdown logic input active low; open-drain overtemperature output	SD/OD	Present	Unspecified	Bi-Directional or Input/Open-Drain Output	Pin type missing; designator is acceptable Flux-style active-low formatting
3	HIN	High-side driver logic input, active high	HIN	Present	Unspecified	Input	Pin type missing
4	VCC	Logic supply voltage	VCC	Present	Unspecified	Power In	Pin type missing
5	PVCC	Low-side driver supply voltage	PVCC	Present	Unspecified	Power In	Pin type missing
6	NC	Not connected	NC_1	Present	Unspecified	Not Connected	Pin type missing; NC_1 naming is acceptable to disambiguate NC pins
7	SGND	Signal ground	SGND	Present	Unspecified	Ground	Pin type missing
8	NC	Not connected	NC_2	Present	Unspecified	Not Connected	Pin type missing
9	PGND	Low-side driver ground	PGND	Present	Unspecified	Ground	Pin type missing
10	LOFF	Low-side driver sink output	LOFF	Present	Unspecified	Output	Pin type missing
11	LON	Low-side driver source output	LON	Present	Unspecified	Output	Pin type missing
12	NC	Not connected	NC_3	Present	Unspecified	Not Connected	Pin type missing
13	OUT	High-side floating common voltage	OUT	Present	Unspecified	Power Out / Passive	Pin type missing; for a switching-node/common reference, `Power Out` or `Passive` may be preferable depending Flux ERC behavior
14	HOFF	High-side driver sink output	HOFF	Present	Unspecified	Output	Pin type missing
15	HON	High-side driver source output	HON	Present	Unspecified	Output	Pin type missing
16	BOOT	Bootstrap supply voltage	BOOT	Present	Unspecified	Power In	Pin type missing

Symbol Check Result

Pin count matches the datasheet: 16 terminals present, including NC pins 6, 8, and 12.
Pin numbers match the datasheet for all terminals.
Pin labels match the datasheet functionally.
Main mismatch: every terminal currently has Pin Type = Unspecified.
Pin Description, Section, Pin Group, Pin Orientation, and Sub-symbol properties are absent; these should be populated for a polished IC part symbol.

Recommended Pin Function Groups

Each physical pin appears in exactly one group below, so there are no duplicate pin assignments across groups.

Table

Functional group	Pins	Rationale
Logic Inputs	1 LIN, 3 HIN	Active-high low-side and high-side logic control inputs
Shutdown / Fault	2 SD/OD	Combined active-low shutdown input and open-drain overtemperature fault output
Logic Supply	4 VCC	Logic-side supply rail
Low-Side Driver Supply	5 PVCC	Low-side gate-driver supply rail
Signal Ground	7 SGND	Logic/signal ground reference
Power Ground	9 PGND	Low-side driver/power ground return
Low-Side Gate Drive	10 LOFF, 11 LON	Separate sink/source low-side gate-drive outputs
High-Side Floating Reference	13 OUT	High-side floating common/switch-node reference
High-Side Gate Drive	14 HOFF, 15 HON	Separate sink/source high-side gate-drive outputs
Bootstrap Supply	16 BOOT	High-side bootstrap supply input
No Connect	6 NC_1, 8 NC_2, 12 NC_3	Datasheet no-connect pins

Suggested Flux Terminal Properties by Group

Terminal	Pin #	Pin Type	Section	Pin Group	Orientation
LIN	1	Input	Control	Logic Inputs	Left
SD/OD	2	Bi-Directional	Control	Shutdown / Fault	Left
HIN	3	Input	Control	Logic Inputs	Left
VCC	4	Power In	Power	Logic Supply	Top
PVCC	5	Power In	Power	Low-Side Driver Supply	Top
NC_1	6	Not Connected	No Connect	No Connect	Left
SGND	7	Ground	Ground	Signal Ground	Bottom
NC_2	8	Not Connected	No Connect	No Connect	Left
PGND	9	Ground	Ground	Power Ground	Bottom
LOFF	10	Output	Gate Drive	Low-Side Gate Drive	Right
LON	11	Output	Gate Drive	Low-Side Gate Drive	Right
NC_3	12	Not Connected	No Connect	No Connect	Right
OUT	13	Passive or Power Out	Switching Node	High-Side Floating Reference	Right
HOFF	14	Output	Gate Drive	High-Side Gate Drive	Right
HON	15	Output	Gate Drive	High-Side Gate Drive	Right
BOOT	16	Power In	Power	Bootstrap Supply	Top

Note: The datasheet's coarse grouping places BOOT and OUT together as the high-side floating supply pair, but for terminal metadata it is cleaner to keep BOOT as Bootstrap Supply and OUT as High-Side Floating Reference so no pin is duplicated between groups.

Footprint / Package Review

Footprint asset:

SOIC127P600X175-16N.kicad_mod

Observed footprint details:

16 SMD pads.
Pad pitch: 1.27 mm.
Pad size: 0.65 mm × 1.525 mm.
Two 8-pin rows, SOIC-style numbering.
Pad mapping follows the standard 1–8 left row, 9–16 right row ordering.
3D model asset is present: STDRIVEG600.stp.

Footprint verdict:

Footprint pin count and pad numbering are consistent with the STDRIVEG600 SO-16 package.
Footprint naming SOIC127P600X175-16N is consistent with a 1.27 mm pitch, ~6 mm body-width SOIC-16 footprint and appears appropriate for SO-16N.
No footprint pin-count mismatch found.

Implementation Notes from Datasheet

Use low-ESR, low-ESL SMT ceramic bypass capacitors close to each supply rail pin.
Typical 100 nF capacitors are recommended between:
- VCC and SGND
- PVCC and PGND
- BOOT and OUT
For high gate-charge transistors, add additional local storage capacitance near supply pins.
The datasheet shows separate gate resistors for source and sink paths:
- HON / HOFF for high-side gate turn-on / turn-off
- LON / LOFF for low-side gate turn-on / turn-off
Minimize gate loop inductance, especially for GaN devices.
Place power transistors close to the driver.
Use Kelvin source routing where available.
Keep the gate current return path directly underneath/near the gate resistors and use appropriate vias for plane return paths.

Mismatches / Issues to Fix

All terminal Pin Types are Unspecified.
- This weakens ERC behavior and part usability.
- Recommended updates: LIN/HIN = Input, outputs = Output, supplies = Power In, grounds = Ground, NC pins = Not Connected.
Pin descriptions are missing.
- Add short descriptions such as Low-side logic input, Bootstrap supply, High-side source output.
Project-level package metadata is missing.
- Add Package or Case Code = SO-16 or SOIC-16N.
Project-level Part Type is missing.
- Add Part Type = Gate Driver or Half-Bridge Gate Driver depending on available property conventions.
Consider adding implementation metadata.
- Add operating voltage max 20 V, operating temperature -40°C to +125°C, and implementation details summarizing bypass capacitors and gate-loop layout constraints.

Recommended Terminal Property Updates

Terminal	Pin Number	Pin Type	Pin Description	Section	Pin Group	Suggested Orientation
LIN	1	Input	Low-side logic input	Control	Logic Inputs	Left
SD/OD	2	Bi-Directional	Shutdown / fault output	Control	Shutdown/Fault	Left
HIN	3	Input	High-side logic input	Control	Logic Inputs	Left
VCC	4	Power In	Logic supply	Power	Logic Supply	Top
PVCC	5	Power In	Low-side driver supply	Power	Driver Supply	Top
NC_1	6	Not Connected	Not connected	NC	NC	Left
SGND	7	Ground	Signal ground	Ground	Signal Ground	Bottom
NC_2	8	Not Connected	Not connected	NC	NC	Left
PGND	9	Ground	Low-side driver ground	Ground	Power Ground	Bottom
LOFF	10	Output	Low-side sink output	Gate Drive	Low-Side Drive	Right
LON	11	Output	Low-side source output	Gate Drive	Low-Side Drive	Right
NC_3	12	Not Connected	Not connected	NC	NC	Right
OUT	13	Power Out / Passive	High-side floating common	Switching Node	High-Side Supply	Right
HOFF	14	Output	High-side sink output	Gate Drive	High-Side Drive	Right
HON	15	Output	High-side source output	Gate Drive	High-Side Drive	Right
BOOT	16	Power In	Bootstrap supply	Power	High-Side Supply	Top

Overall Verdict

The STDRIVEG600 part is structurally correct: datasheet URL is set, MPN/manufacturer are correct, the symbol includes all 16 datasheet pins with correct pin numbers, and the footprint appears to match the SO-16 package. The main deficiencies are metadata completeness and terminal-quality properties: pin types, pin descriptions, package metadata, and part type should be filled in before publishing or reusing this part broadly.

Notes on Method

This review followed the part-project datasheet synchronization process: verify the datasheet URL, extract targeted metadata/pinout from the official datasheet, audit terminal elements, compare exact pin numbers, and flag missing/incorrect properties. The process emphasizes using the datasheet as the source of truth and matching pin count exactly, including NC pins and exposed pads when present. Detailed results were placed in a project file rather than inline per the project-file guidance for long-form analysis.

Scope

Part Metadata Review

Key Datasheet Specs

Datasheet Pin Table vs Schematic Symbol

Symbol Check Result

Recommended Pin Function Groups

Suggested Flux Terminal Properties by Group

Footprint / Package Review

Implementation Notes from Datasheet

Mismatches / Issues to Fix

Recommended Terminal Property Updates

Overall Verdict

Notes on Method

Reviews

Documents

STDRIVEG600 Part Review

Assets

STDRIVEG600

STDRIVEG600 Symbol.svgDefault

stp

STDRIVEG600

STDRIVEG600.stp3D Model

STDRIVEG600-thumb.png

STDRIVEG600-thumbThumbnail

kicad_mod

STDRIVEG600

SOIC127P600X175-16N.kicad_modFootprint

Project Name

STDRIVEG600

Description

High voltage half-bridge gate driver for GaN transistors

Features • dV/dt immunity ±200 V/ns • Driver current capability: – 1.3/2.4 A source/sink typ @ 25 °C, 6 V – 5.5/6 A source/sink typ @ 25 °C, 15 V • Separated turn on and turn off gate driver pins • 45 ns propagation delay with tight matching • 3.3 V, 5 V TTL/CMOS inputs with hysteresis • Interlocking function • UVLO on low-side and high-side sections • Dedicated pin for shut down functionality • Over temperature protection Applications • High-voltage PFC, DC-DC and DC-AC converters • Switch-mode power supplies • UPS systems • Solar power • Motor driver for home appliances, factory automation and industrial drives.

#CommonPartsLibrary #IntegratedCircuit #powermanagement

Properties

Manufac… Number

STDRIVEG600

Manufac…er Name

STMicroelectronics

Part Type

Integrated Circuit

Datasheet URL

st.com/resource/en/datasheet/stdriveg600.pdf

Designator Prefix

License

creativecommons.org/licenses/by/4.0/

Symbol Style

parametric-v1

Pricing & Availability

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adrian95 / STDRIVEG600

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