updated the TODO list

README.md

@@ -4,26 +4,48 @@ TeX source file for ESF and scrutineering
 
 # ESF 2.0 TODOs
 - [ ] BSPD
-	- [x] Schematic
-	- [ ] Better Formulation
+	- [x] Schematicc
 	- [ ] Datasheet of used TS current sensor
+	- [ ] Detailed schematic including all remote circuitry (e.g. brake pedal, current sensing).
+	- [ ] Provide an explanation of SCS signal implementation, failure mode and effect analysis per T11.9.2.
+ 	- [ ] Provide latching capability explanation/simulation.
+ 	- [ ] Step-by-step walkthrough of the technical inspection BSPD test procedure.
+
 - [ ] SDC
-	- [ ] Current consumption  
 	- [ ] Please give information about the additional parts consumption and add your used powerstages (MOSFETs and/or relays) used in your shutdown circuit.
 	- [ ] AMS & IMD Latching
 	- [ ] Inertia Switch
+	- [ ] Top-level schematics with all switching elements.
+	- [ ] Provide latching capability explanation/simulation (AMS and IMD).
+	- [ ] Current consumption  
+	- [ ] Describe overcurrent protection
 - [ ] TSAL
+	- [ ] Detailed TSAL schematic, including all remote circuitry (DC-link and TSAC output
 	- [ ] TS Accumulator 
-	- [ ] Accumulator TSAL
-	- [ ] Accumulator TSAL - Voltage detection
-	- [ ] Accumulator TSAL - Relay state detection
-	- [ ] Dashboard
-	- [ ] TSAL driver board and DC-link voltage detection
-	- [ ] Vehicle TS Schematic
+		- [ ] Accumulator TSAL
+		- [ ] Accumulator TSAL - Voltage detection
+		- [ ] Accumulator TSAL - Relay state detection
+		- [ ] Dashboard	
 	- [ ] (DC) Vehicle Side Voltage Detection
+	- [ ] TSAL driver board and DC-link voltage detection
+	- [ ] Vehicle TS Schematic voltage measurement, AIR and precharge relay state detection, red and green TSAL circuitry).
+	- [ ] Provide latching capability explanation/simulation.
+	- [ ] Provide an explanation of SCS signal implementation, failure mode and effect analysis per T11.9.2
 - [ ] TS Discharge Circuit
 	- [ ] Schematic
 	- [ ] Relay/MOSFET (or equivalent) datasheet 
 	- [ ] Resistor (or equivalent) datasheet
+	- [ ] High-level schematic of the discharge circuitry, highlighting components in the discharge power path (e.g. DC-link capacitors and their connection, switching devices, and resistors).
+	- [ ] Proof that all components in the discharge power path can permanently handle maximum TS potential (calculations/simulations, component mounting method if necessary).
 
-Each document must be a standalone, searchable PDF named in the format: E###_TeamName_ESF_DocType.pdf
+Categories for FS Czech ESF Addendum are BSPD, SDC, TSAL and Discharge.
+- Documents must be submitted via the FS Czech Portal by 13:00 CEST, May 9th, 2025. 
+Teams will receive a notification once their document has passed the review or if any changes are required. 
+We will prioritize first-time submissions and cannot guarantee timely reviews for resubmissions.
+- Each category must be submitted as a standalone PDF named in the following format: E###_TeamName_ESF_DocType.pdf (where ### is the car number and DocType is one of BSPD, SDC, TSAL, or Discharge).
+- General rules:
+	- Searchable document with part numbers included (except for non-critical low-voltage and low-power passive components - where component values are sufficient).
+	- Short introduction to the circuitry, top-level schematic if needed for clarity.
+	- Clear signal mapping, especially if the circuitry spans multiple PCBs / car locations.
+	- Any used abbreviations (except those used in current Formula Student Rules) have to be explained.
+	- If needed, include links to publicly hosted datasheets (preferred over attaching files).