Positive Temperature Coefficient (PTC) Data Sheet

 

Description

 

The 2920 series provides miniature suSRace mount resettable overcurrent protection with holding current from 0.3A to 7.0A. This series is suitable for wide range of applications in modern electronics where space is limited.

 

Features

 

■ RoHS compliant and lead-free ■ Halogen-free ■ Compact design saves board space

■ Low profile ■ Fast response to fault current ■ Compatible with high temperature solders

 

Applications

 

■ Mobile phones and PDAs ■ Battery PCM ■ USB hubs, ports and peripherals

■ Set-top-box and HDMI ■ Game console port protection ■ General electronics

 

Electrical Characteristics

Part Number	Ihold (A)	Itrip (A)	Vmax (Vdc)	Imax (A)	Pd typ.  (W)	Maximum Time To Trip		Resistance
						Time (Sec.)	Current (A)	Rmin (Ω)	R1max (Ω)
SMD2920SR030	0.30	0.60	60	10	1.50	1.50	3.00	1.200	4.800
SMD2920SR050	0.50	1.00	60	10	1.50	2.50	4.00	0.350	1.400
SMD2920SR075	0.75	1.50	30	40	1.50	8.00	0.30	0.350	1.000
SMD2920SR075/60	0.75	1.50	60	10	1.50	8.00	0.30	0.300	0.950
SMD2920SR100	1.10	2.20	33	40	1.50	8.00	0.50	0.120	0.410
SMD2920SR125	1.25	2.50	15	40	1.50	8.00	2.00	0.070	0.250
SMD2920SR150	1.50	3.00	33	40	1.50	8.00	2.00	0.080	0.230
SMD2920SR185	1.85	3.70	33	40	1.50	8.00	2.50	0.050	0.150
SMD2920SR200/24	2.00	4.00	24	40	1.50	8.00	5.00	0.050	0.125
SMD2920SR250	2.50	5.00	15	40	1.50	8.00	5.00	0.035	0.085
SMD2920SR260	2.60	5.00	6	40	1.50	8.00	10.00	0.025	0.075
SMD2920SR260/24	2.60	5.00	24	40	1.50	8.00	5.00	0.025	0.075
SMD2920SR300/15	3.00	5.00	15	40	1.50	8.00	20.00	0.015	0.048
SMD2920SR400	4.00	8.00	15	40	1.50	20.00	4.00	0.010	0.040
SMD2920SR500	5.00	10.00	12	40	1.50	20.00	5.00	0.005	0.025
SMD2920SR500/16	5.00	10.00	16	40	2.00	20.00	5.00	0.005	0.025
SMD2920SR600	6.00	12.00	16	40	1.5	25.0	6.0	0.004	0.020
SMD2920SR700	7.00	14.00	12	40	1.5	25.0	6.0	0.0025	0.010

 

 

Note on Electrical Characteristics

■ Vocabulary

·I_hold = Hold current: maximum current device will pass without tripping in 23℃ still air.

·I_trip = Trip current: minimum current at which the device will trip in 23℃ still air.

·V_max = Maximum voltage device can withstand without damage at rated current (I_max)

·I_max = Maximum fault current device can withstand without damage at rated voltage (V_max)

·P_{d typ.} = Typical power dissipated from device when in the tripped state at 23℃ still air.

·R_min = Minimum resistance of device in initial (un-soldered) state.

·R_1max = Maximum resistance of device at 23℃ measured one hour after tripping or reflow soldering of 260℃ for 20 sec.

■ Value specified is determined by using the PWB with 0.150”*1.5oz copper traces.

■ Caution: Operation beyond the specified rating may result in damage and possible arcing and flame.

■ Specifications are subject to change without notice.

 

Polymeric PTC Selecting Guide

 

■ Determine the following operating parameters for the circuits:

·Normal operating current (Ihold)	·Maximum interrupt current (Imax)
·Maximum circuit voltage (Vmax)	·Normal operating temperature surrounding device (min℃/max℃)

■ Select the device from factor and dimension suitable for the application

■ Compare the maximum rating for V_max and I_max of the PPTC device with the circuit in application and make sure the circuit’s requirement does not exceed the device rating.

■ Check that PPTC device’s trip time (time-to-trip) will protect the circuit.

■ Verify that the circuit operating temperature is within the PPTC device’s normal operating temperature range.

■ Verify that peSRormance and suitability of the chosen PPTC device in the application.

 

WARNING

■ Mechanical Stress

·PPTC devices will undergo a thermal expansion during fault condition. If PPTC devices are installed or placed in an application where the space between PPTC devices and the surrounding materials (e.g., covering materials, packaging materials, encapsulate materials and the like) is insufficient, it will cause an inhibiting effect upon the thermal expansion. Pressing, twisting, bending and other kinds of mechanical stress will also adversely affect the peSRormance of the PPTC devices, and shall not be used or applied.

■ Chemical Pollutants

·Silicone-based oils, oils, solvents, gels, electrolytes, fuels, acids, and the like will adversely affect the properties of PPTC devices, and shall not be used or applied.

■ Electronic and Thermal Effect

·PPTC devices are secondary protection devices and are used solely for sporadic, accidental over-current or over-temperature error condition, and shall NOT be used if or when constant or repeated fault conditions (such fault conditions may be caused by,among others, incorrect pin-connection of a connector) or over-extensive trip events may occur.

   ·PPTC devices are different from fuses and, when a fault condition occurs, will go into high-resistance state and do not open circuit, in which case the voltage at such PPTC devices may reach a hazardous level.

   ·Operation over the maximum rating or other forms of improper use may cause failure, arcing, flame and/or other damage to the PPTC devices.

   ·Conductive material contamination, such as metal particle, may induce shortage, flame or arcing.

   ·Due to the inductance, the operation circuits may generate a circuit voltage (Ldi/dt) above the rated voltage of PPTC devices, which shall not be used under such circumstances.

■ General

·Customers shall evaluate and test the properties of PPTC devices independently to verify and ensure that their individual applications will be met.

·The peSRormance of PPTC devices will be adversely affected if they are improperly used under electronic, thermal and/or mechanical procedures and/or conditions non-conformant to those recommended by manufacturer.

·Customers shall be responsible for determining whether it is necessary to have back-up, failsafe and/or fool-proof protection To avoid or minimize damage that may result from extra-ordinary, irregular function or failure of PPTC devices.

·Any and all responsibilities and liabilities are disclaimed if any item under this notice of warning is not complied with.

 

Thermal Derating Curve

Thermal Derating Chart

 

Recommended Hold Current (A) at Ambient Temperature (℃)

 

Part Number	Ambient Operation Temperature
	-40℃	-20℃	0℃	23℃	40℃	50℃	60℃	70℃	85℃
SMD2920SR030	0.45	0.40	0.35	0.30	0.25	0.23	0.20	0.17	0.14
SMD2920SR050	0.76	0.67	0.59	0.50	0.42	0.38	0.33	0.29	0.23
SMD2920SR075	1.13	1.01	0.88	0.75	0.62	0.56	0.50	0.44	0.34
SMD2920SR075/60	1.13	1.01	0.88	0.75	0.62	0.56	0.50	0.44	0.34
SMD2920SR100	1.66	1.47	1.29	1.10	0.91	0.83	0.73	0.64	0.50
SMD2920SR125	1.89	1.68	1.46	1.25	1.04	0.94	0.83	0.73	0.56
SMD2920SR150	2.27	2.01	1.76	1.50	1.25	1.13	1.00	0.87	0.74
SMD2920SR185	2.80	2.47	2.17	1.85	1.54	1.39	1.22	1.07	0.85
SMD2920SR200/24	3.14	2.77	2.42	2.00	1.73	1.56	1.38	1.20	0.98
SMD2920SR250	3.78	3.35	2.93	2.50	2.08	1.88	1.65	1.45	1.13
SMD2920SR260	3.64	3.25	2.91	2.60	2.26	2.08	1.95	1.74	1.48
SMD2920SR260/24	3.64	3.25	2.91	2.60	2.26	2.08	1.95	1.74	1.48
SMD2920SR300/15	4.20	3.85	3.44	3.00	2.69	2.50	2.31	2.12	1.83
SMD2920SR400	5.50	5.00	4.50	4.00	3.40	3.10	2.80	2.50	2.10
SMD2920SR500	7.55	6.70	5.85	5.00	4.15	3.75	3.30	2.90	2.25
SMD2920SR500/16	7.55	6.70	5.85	5.00	4.15	3.75	3.30	2.90	2.25
SMD2920SR600	8.60	7.70	6.80	6.00	4.95	4.60	4.06	3.65	3.15
SMD2920SR700	10.03	8.98	7.93	7.00	5.77	5.36	4.73	4.26	3.68

 

 

Average Time-Current Curve

 

Physical Dimensions (mm)

Part Number	A		B		C		D		E
	Min.	Max.	Min.	Max.	Min.	Max.	Min.	Max.	Min.	Max.
SMD2920SR030	6.73	7.98	4.80	5.44	0.75	1.25	0.30	2.50	0.25	2.00
SMD2920SR050	6.73	7.98	4.80	5.44	0.75	1.25	0.30	2.50	0.25	2.00
SMD2920SR075	6.73	7.98	4.80	5.44	0.75	1.25	0.30	2.50	0.25	2.00
SMD2920SR100	6.73	7.98	4.80	5.44	0.55	1.00	0.30	2.50	0.25	2.00
SMD2920SR125	6.73	7.98	4.80	5.44	0.55	1.00	0.30	2.50	0.25	2.00
SMD2920SR150	6.73	7.98	4.80	5.44	0.75	1.25	0.30	2.50	0.25	2.00
SMD2920SR185	6.73	7.98	4.80	5.44	0.75	1.25	0.30	2.50	0.25	2.00
SMD2920SR200	6.73	7.98	4.80	5.44	0.75	1.25	0.30	2.50	0.25	2.00
SMD2920SR250	6.73	7.98	4.80	5.44	0.75	1.25	0.30	2.50	0.25	2.00
SMD2920SR260	6.73	7.98	4.80	5.44	0.55	1.00	0.30	2.50	0.25	2.00
SMD2920SR300	6.73	7.98	4.80	5.44	0.75	1.25	0.30	2.50	0.25	2.00
SMD2920SR400	6.73	7.98	4.80	5.44	0.80	1.60	0.30	2.50	0.25	2.00
SMD2920SR500	6.73	7.98	4.80	5.44	0.80	1.60	0.30	2.50	0.25	2.00
SMD2920SR500	6.73	7.98	4.80	5.44	0.80	1.60	0.30	2.50	0.25	2.00

 

Environmental Specifications

 

Operating / Storage temperature	-40℃ to +85℃
Maximum Device SuSRace Temperature in Tripped State	125℃
Passive Aging	+85℃, 1000 hours ±50% typical resistance change
Humidity Aging	+85℃, 85%R.H. 1000 hours ±50% typical resistance change
Thermal Shock	MIL-STD-202, Method 107G +85℃/-40℃ 20 times -50% typical resistance change
Solvent Resistance	MIL-STD-202, Method 215 No change
Vibration	MIL-STD-883C, Method 2007.1, Condition A No change
Moisture Level Sensitivity	Level 1, J-STD-020C

 

Packaging Quantity and Marking

 

Recommended Pad Layout (mm)

 

Part Number	Marking	Quantity
SMD2920SR030	030	1500
SMD2920SR050	050	1500
SMD2920SR075	075	1500
SMD2920SR075/60	075	1500
SMD2920SR100	100	1500
SMD2920SR125	125	1500
SMD2920SR150	150	1500
SMD2920SR185	185	1500
SMD2920SR200/24	200	1500
SMD2920SR250	250	1500
SMD2920SR260	260	1500
SMD2920SR260/24	260	1500
SMD2920SR300/15	300	1500
SMD2920SR400	400	1000
SMD2920SR500	500	1000
SMD2920SR500/16	500	1000

◎ 8mm tape on 7 inch reel per EIA-481(equivalent to IEC286, part 3)

 

Physical Specifications

 

Terminal Material	Solder-Plated Copper (Solder Material: Matte Tin (Sn))
Lead Solderability	Meets EIA Specification RS186-9E, ANSI/J-STD-002 Category 3.

 

 

Packaging

 

Tape	Symbol	Dimensions (mm)
	W	16.00±0.30	16.00±0.30	16.00±0.30
	F	7.50±0.10	7.50±0.10	7.50±0.10
	E1	1.75±0.10	1.75±0.10	1.75±0.10
	D0	1.55±0.05	1.55±0.05	1.50±0.10
	D1	1.50±0.10	1.50±0.10	1.50(MIN)
	P0	4.00±0.10	4.00±0.10	4.00±0.10
	P1	8.00±0.10	8.00±0.10	8.00±0.10
	P2	2.00±0.10	2.00±0.10	2.00±0.10
	A0	5.74±0.10	5.74±0.10	5.45±0.10
	B0	8.02±0.10	8.02±0.10	7.90±0.10
	T	0.30±0.10	0.30±0.10	0.30±0.05
	K0	1.30±0.10	0.91±0.10	2.00±0.10
	Leader min.	390	390	390
	Trailer min.	160	160	160
Reel	C	Φ180.0±3.0
	D	Φ60.0±0.5
	H	19.5±1.0
	W	17.0±0.2

 

 

Part Number System