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MBM29LV800BA70PFTR-SFLE1 Datasheet

Information relating to products and services furnished herein by Zarlink Semiconductor Inc. trading as Zarlink Semiconductor or its subsidiaries (collectively "Zarlink") is believed to be reliable. However, Zarlink assumes no liability for errors that may appear in this publication, or for liability otherwise arising from the application or use of any such information, product or service or for any in7ringement of patents or other intellectual property rights owned by third parties which may result from such application or use. Neither the supply of such information or purchase of product or service conveys any license, either express or implied, under patents or other intellectual property rights owned by Zarlink or licensed from third parties by Zarlink, whatsoever. Purchasers of products are also hereby notified that the use of product in certain ways or in combination with Zarlink, or non-Zarlink furnished goods or services may infringe patents or other intellectual property rights owned by Zarlink.
MBM29LV800BA70PFTR-SFLE1 Price

NOTES: 1. The specifiedlimits represant the worst case values for the parameter. Since these worst case values normalhjt occur at the supply voltage and remperature extremes. additionalnoise immuniTy can be achieved by cfecreasing the allowable operafing condition ranges. 2. Conditions for testing shown in the tabks are not necessarily worst case. For worst case testing guidelines, refer to DC Testing, Chapter l, Secton 3. 3. The speofied limits shown in the DC Electrical Characteristics table can be met only after thermal equilibrium has been established. Thermal equilibrium is established by applying power for atleast 2 minutes, whiLa maintaining transvarse airflow of 2.5 meters/sac (500 linear feet/min) over the device, mounted either in a test socket or on a printed circuit board. Test voltage values are given in the DC Operating Conditions table.
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Anhlog Input		UNIPOLAR	BIPOLAR
2850, 52, 57	2851 2853-56. 2858-61	Blnary	Ot Blrlary	Complement
-FS -FS+1 LSB -i4 Scale -'n Scale o-i LSa o 0+1 LSB + v2 Scale ~ Scala +FS -1 LSB	FS-1 LSa v. Scafe +v? Scale OFl LSB o o-i LSB - Vz Scale -y Scale -FS+1 LSB	ooo . . . . . ooo ooo . . . .. 001 100.... OOU 110.....000 lll.....llj	ooo . . .. . ooo ooo . . .. . ool 001 .. . . . ooo oio.....ooo 011 . . . .. 111 100.....ooo ioo.....oai 110.....000 11t.....000 111.....111	100 . . . . . ooa 100 . . . .. O01 ioi.....ooo 110 . . . .. 000 111 . . . . . 111 ooo .. . . . ooo ooo .. . . . 001 oio...:.ooo oii.....ooo 011 . . , . . 111

Look across the top of the table below to find the temperature that most closely matches the circuit's maximum ambient operating temper- ature. Look down that column to find the value equal to or greater than the circuit's normal operating current. Now look to the far left of that row to find the part number for the RUE device that will best accommo- date the circuit.

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