Talk:SKU Models: Difference between revisions

Revision as of 13:31, 28 July 2014

missing file: File:Date Code Superslim.jpg

SKU Models main page is high bandwidth page, nominated for splitting content, proposal to split in seperate pages as:

SKU Models
- Retail:
  - FAT
  - Slim (2K)
  - Slim 3K
- non Retail:
  - Reference Tool (Tool/DECR)
  - Debug station (Debug/DEX)
  - Arcade
  - AV Testing Tool (DECHS)
  - Prototypes / Preproduction models
- Comparison of functionality
Regioning
Datecode / Manufacturing Date

Other reference: http://www.trisaster.de/page/index.php?topic=78

Seems this SKU has had 2 different motherboard releases:

CECH-250.A - JTP-001 - serial : 1-882-481-31
CECH-250.B - JTP-001 - serial : 1-882-481-31

CECH-250.A - JSD-001 - added by User:MikeM64 - serial: 1-882-770-31
CECH-250.B - JSD-001 - added by User:MikeM64 - serial: 1-882-770-31

remark: MikeM64 : CECH-2501A with JSD-001 board, came prefactory with 3.40, which is also the lowest downgradeable firmware

Raw Model Data from my JSD-001 (CECH-2501A): 0x00, 0x01, 0x00, 0x84, 0x00, 0x08, 0x00, 0x05

QA doesn't give more downgradeability compared to JIG / Factory/Service Mode

dospiedra	i can downgrade with jig to 1.00 max
dospiedra	on 60 gb retro only , on my fat 80gb only to 2.30

rms	in my case 1.97
rms	cechg01

eussNL	dospiedra: what model whas that FAT 80GB ? CECHE/K/L/M ?
dospiedra	no idea, was assembled piece by piece and the shell model does not match the plate
dospiedra	sure is 16mb nor
dospiedra	and sata drive
eussNL	that would make it K/L/M
dospiedra	not 90nm
eussNL	all 3 are 65nm
dospiedra	I have no idea of exact model is
eussNL	K = DIA-002 board, L or M is VER-001 board
dospiedra	001 board
dospiedra	I am not sure
eussNL	you could run rms' infotool on it, to make sure, but I am not asking you to go for that trouble for me
dospiedra	rms later try to run it right now I'm busy, but I promise to give the exact model in few hours

dospiedra	hi , my ps3 model isCECHL04

ofc it doesn't, since there are no drivers for the newer system components in older firmware versions ;)

TESTS... collapsing retail tables

This table is a copy of http://www.ps3devwiki.com/wiki/SKU_Models#PS3_Slim with a different format

PS3 Slim
PS3 Model	Name		CECH-20xx	CECH-21xx	CECH-25xx		CECH-30xx
	Type		0x09	0x0A	0x0B		0xC
	Production Time		6 Months ?	6 Months	12 Months		?
	Manufacturing Date Date Code		July 2009 ~ December ? 2009 9C and 9D ?	January 2010 ~ June 2010 0A and 0B	July 2010 ~ June 2011 0C, 0D, 1A, and 1B		July 2011 ~ ? 1C, ?
Firmware	Minimal (by Date Code)		2.70 (9C and 9D ?)	3.20 (0A and 0B?)	3.40 (0C), or 3.50 (0D and 1A), or 3.56 (1A and 1B), or 3.60 (1B)		3.60 and 3.72 (1C, and ?)
Firmware	Installed (at Date Code)		2.76 (9C and 9D ?)	3.21 (0A and 0B?)	3.40 and 3.41 (0C), or 3.56 (0D, 1A and 1B), or 3.60 (1B)		3.65 and 3.72 (1C, and ?)
Console Components
	HDD	A (120GB)	Hitachi HTS545012B9SA00 or Toshiba MK1255GSX
		A (160GB)			Toshiba MK1665GSX or MK1676GSX
		B (250GB)	Toshiba MK2555GSX
		B (320GB)			Toshiba MK3276GSX
	Bluray	Drive	BD-450		BD-460		BD-470
		Board	BMD-051 or BMD-061	BMD-065	No
		Controller	R8J32820FPV1 or CXD5130R-1	CXD5131R-1	Integrated on Mother Board
		Mechacon	??? or BD7969EFV	???	Integrated on Mother Board
		Chasis	KEM-450AAA		KEM-450DAA		KEM-450EAA
		Lens	KES-450A (SA-CD No)		KES-450D (SA-CD No)		KES-450E (SA-CD No)
	Power Supply Unit		APS-250 or EADP-220BB (221 watts)	APS-270 or EADP-200DB (197 watts)			APS-306 or EADP-185AB (161 watts)
	HeatSink		Type 5				Type 6 (Integrated on Mother Board Plate)
	Fan		Nidec G10C12MS1AH-56J14 or Nidec G10C12MS2AH-56J14 or Delta KFB1012HE or NMB-MAT BG1004-B045-P00 (10cm diameter)				Nidec G80E12NS1ZN-56J14 (8cm diameter)
	Card Reader Board		No
	Power/Eject board		DSW-001		HSW-001		KSW-001
	MotherBoard		DYN-00x	SUR-00x	JTP-00x	JSD-00x	KTE-001
MotherBoard Components
	Syscon		SW2-301
				SW2-302
					SW2-303
	Processing	CELL	CXD2992AGB (45nm)		CXD2992GB (45nm)		CXD2996GB ? (45nm)
	Processing	XDR RAM	Elpida X5116ADSE-3C-E (4x64MB)	Elpida X1032BASE-3C-F (2x128MB)	Elpida X1032BASE-3CA2-F (2x128MB)	?	?
	Graphics	RSX	CXD2991CGB or CXD2991EGB (65nm)	CXD5300AGB (40nm)	CXD5300A1GB (40nm)		CXD5301DGB (40nm)
	Graphics	GDDR3 RAM	Qimonda HYB18H512322AF-14 (4x64MB)	? (4x64MB)	Samsung K4J52324KJ-JC14 (4x64MB)		?
	PS2 Compatibility	EE/GS	No
		Rambus	No
		Bridgechip	No
	Audio/Video	MultiAV	CXM4027R				?
	Audio/Video	HDMI	Panasonic MN8647091 (CEC Commands supported)				?
	SouthBridge		CXD9963GB (ENCDEC and USB integrated)				?
	USB		No
	Starship2		No
	SATA/PATA		No
	Bluray Controllers	Controller	On Bluray Board		R8J32830FPV1	CXD5132R-1
	Bluray Controllers	Mechacon	On Bluray Board		BD7969EFV	?	?
	GbLAN		Marvell Alaska 88E1118R-NNC2 (10/100/1000BASE-T)		88E1310-NNB2	?	?
	Wifi/Bluetooth		Marvell Avastar 88W8780 (802.11 b/g)		Marvell Avastar 88W8781 (802.11 b/g)		?
	Flash	NOR 1x16MB	Spansion S29GL128N90TFIR2
			Samsung K8Q2815UQB-PI4B
			Macronix MX29GL128ELT2I-90G			?	Macronix MX29GL128ELT2I-90G
			Spansion S29GL128P90TFIR2
					Samsung K8P2716UZC-QI4D

ZSSR5391A : 600 Watt input, 12V 32A (384W), 5V 3A (15W), cum:399, eff:66.5%

APS-226 : 480 Watt input, 12V 32A (384W), 5V 3A (15W), cum:399, eff:83.125%

APS-227 : 484-528 Watt input, 12V 32A (384W), 5V 3A (15W), cum:399, eff:75.568181818-82.438016529%

LSEB1226A1 : 480-528 Watt input, 12V 31A (372W), 5V 3A (15W), cum:387, eff:70.454545455-80.625%

APS-231 : 350-360 Watt input, 12V 23.5A (282W), 5V 0.6A (3W), cum:285, eff:79.166666667-81.428571429%

LSEB1226B1 : 374-384 Watt input, 12V 23.5A (282W), 5V 0.6A (3W), cum:285, eff:74.21875-76.203208556%

LSEB1254A1 : 374-384 Watt input, 12V 23.5A (282W), 5V 0.6A (3W), cum:285, eff:74.21875-76.203208556%

EADP-300AB : 360W input, 12V 23.5A (282W), 5V 0.6A (3W), cum:285, eff:77.678571429-79.166666667%

APS-239 : ? input, 12V 23.5A (282W), 5V 0.6A (3W), cum:285, eff:?

EADP-260AB : 330-336 Watt input, 12V 21.5A (258W), 5V 0.6A (3W), cum:261, eff:79.090909091%

APS-240 : 330-336 Watt input, 12V 21A (252W), 5.5V 0.9A (4.95W), cum:256.95, eff:76.458333333-77.863636364%

EADP-260BB : 330-336 Watt input, 12V 21A (252W), 5.5V 0.9A (4.95W), cum:256.95, eff:76.458333333-77.863636364%

EADP-220BB : 288-320 Watt input, 12V 18A (216W), 5.5V 0.9A (4.95W), cum:220.95, eff:69.046875-76.71875%

APS-250 : 270-288 Watt input, 12V 18A (216W), 5.5V 0.9A (4.95W), cum:220.95, eff:76.71875-81.833333333%

EADP-220BB : 288-320 Watt input, 12V 18A (216W), 5.5V 0.9A (4.95W), cum:220.95, eff:69.046875-76.71875%

APS-270 : 250-264 Watt input, 12V 16A (192W), 5.5V 0.9A (4.95W), cum:196.95, eff:74.602272727-78.78%

EADP-200DB : 240-260 Watt input, 12V 16A (192W), 5.5V 0.9A (4.95W), cum:196.95, eff:75.75-82.0625%

APS-306 200-216 Watt input, 12V 13A (156W), 5.5V 0.9A (4.95W), cum:160.95, eff:74.513888889-80.475%

EADP-185AB : 192-210 Watt input, 12V 13A (156W), 5.5V 0.9A (4.95W), cum:160.95, eff:76.642857143-83.828125%

I strongly advice against using cumulative input power (Watt) as a measure, opposed to current (Amps) per output powerline (12V/5V) of the powersupplies. Its like measuring horsepower by amount of haye it eats. Cumulating the output power suffers from the possibility of underpowering either one line too and sets users on the wrong foot that not both requirements must be met. Euss (talk)

@@ Line 226: / Line 226: @@
 |-
 |}<!--// remember, when 1 part gets changed in table, it needs to be changed on all subpages that relate - also the table is NOT collapseable //-->
+----
+: [[ZSSR5391A]] : 600 Watt input, 12V 32A (384W), 5V 3A (15W), cum:399, eff:66.5%
+: [[APS-226]] : 480 Watt input, 12V 32A (384W), 5V 3A (15W), cum:399, eff:83.125%
+: [[APS-227]] : 484-528 Watt input, 12V 32A (384W), 5V 3A (15W), cum:399, eff:75.568181818-82.438016529%
+: [[LSEB1226A1]] : 480-528 Watt input, 12V 31A (372W), 5V 3A (15W), cum:387, eff:70.454545455-80.625%
+: [[APS-231]] : 350-360 Watt input, 12V 23.5A (282W), 5V 0.6A (3W), cum:285, eff:79.166666667-81.428571429%
+: [[LSEB1226B1]] : 374-384 Watt input, 12V 23.5A (282W), 5V 0.6A (3W), cum:285, eff:74.21875-76.203208556%
+: [[LSEB1254A1]] : 374-384 Watt input, 12V 23.5A (282W), 5V 0.6A (3W), cum:285, eff:74.21875-76.203208556%
+: [[EADP-300AB]] : 360W input, 12V 23.5A (282W), 5V 0.6A (3W), cum:285, eff:77.678571429-79.166666667%
+: [[APS-239]] : ? input, 12V 23.5A (282W), 5V 0.6A (3W), cum:285, eff:?
+: [[EADP-260AB]] : 330-336 Watt input, 12V 21.5A (258W), 5V 0.6A (3W), cum:261, eff:79.090909091%
+: [[APS-240]] : 330-336 Watt input, 12V 21A (252W), 5.5V 0.9A (4.95W), cum:256.95, eff:76.458333333-77.863636364%
+: [[EADP-260BB]] : 330-336 Watt input, 12V 21A (252W), 5.5V 0.9A (4.95W), cum:256.95, eff:76.458333333-77.863636364%
+: [[EADP-220BB]] : 288-320 Watt input, 12V 18A (216W), 5.5V 0.9A (4.95W), cum:220.95, eff:69.046875-76.71875%
+: [[APS-250]] : 270-288 Watt input, 12V 18A (216W), 5.5V 0.9A (4.95W), cum:220.95, eff:76.71875-81.833333333%
+: [[EADP-220BB]] : 288-320 Watt input, 12V 18A (216W), 5.5V 0.9A (4.95W), cum:220.95, eff:69.046875-76.71875%
+: [[APS-270]] : 250-264 Watt input, 12V 16A (192W), 5.5V 0.9A (4.95W), cum:196.95, eff:74.602272727-78.78%
+: [[EADP-200DB]] : 240-260 Watt input, 12V 16A (192W), 5.5V 0.9A (4.95W), cum:196.95, eff:75.75-82.0625%
+: [[APS-306]]  200-216 Watt input, 12V 13A (156W), 5.5V 0.9A (4.95W), cum:160.95, eff:74.513888889-80.475%
+: [[EADP-185AB]] : 192-210 Watt input, 12V 13A (156W), 5.5V 0.9A (4.95W), cum:160.95, eff:76.642857143-83.828125%
+: I strongly advice against using cumulative input power (Watt) as a measure, opposed to current (Amps) per output powerline (12V/5V) of the powersupplies. Its like measuring horsepower by amount of haye it eats. Cumulating the output power suffers from the possibility of underpowering either one line too and sets users on the wrong foot that not both requirements must be met. [[User:Euss|Euss]] ([[User talk:Euss|talk]])

Talk:SKU Models: Difference between revisions

Revision as of 13:31, 28 July 2014

TESTS... collapsing retail tables

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