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| ADVANCE | CY14E102L, CY14E102N | |
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Maximum Ratings
Exceeding maximum ratings may impair the useful life of the device. These user guidelines are not tested.
Storage Temperature | |
Ambient Temperature with |
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Power Applied | |
Supply Voltage on VCC Relative to GND | |
Voltage Applied to Outputs | |
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Input Voltage | |
Transient Voltage (<20 ns) on |
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Any Pin to Ground Potential |
Package Power Dissipation |
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Capability (TA = 25°C) | 1.0W | ||
Surface Mount Pb Soldering |
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Temperature (3 Seconds) | +260°C | ||
Output Short Circuit Current [8] | 15 mA | ||
Static Discharge Voltage | > 2001V | ||
(per |
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................................................... | > 200 mA | ||
Operating Range |
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Range |
| Ambient Temperature | VCC |
Commercial |
| 0°C to +70°C | 4.5V to 5.5V |
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Industrial |
| 4.5V to 5.5V | |
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DC Electrical Characteristics
Over the Operating Range (VCC = 4.5V to 5.5V)[10]
Parameter | Description |
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| Test Conditions |
| Min | Max | Unit | ||||
ICC1 | Average VCC Current |
| tRC = 15 ns |
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| Commercial |
| 70 | mA | ||
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| tRC = 20 ns |
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| 65 | mA | ||
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| tRC = 25 ns |
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| 65 | mA | ||
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| tRC = 45 ns |
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| 50 |
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| Dependent on output loading and cycle |
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| Industrial |
| 75 | mA | ||||||||
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| rate.Values obtained without output loads. |
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| 70 | mA | ||||||||
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| IOUT = 0 mA |
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| 70 | mA | ||||||||
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| 52 |
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ICC2 | Average VCC Current |
| All Inputs Don’t Care, VCC = Max |
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| 6 | mA | |||||||
| during STORE |
| Average current for duration tSTORE |
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ICC3[9] | Average VCC Current at |
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| > (VCC | – 0.2). All other I/P cycling. |
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| 35 | mA | ||||
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| tRC= 200 ns, 5V, 25°C |
| Dependent on output loading and cycle rate. Values obtained |
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| typical |
| without output loads. |
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ICC4 | Average VCAP Current |
| All Inputs Don’t Care, VCC = Max |
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| 6 | mA | |||||||
| during AutoStore Cycle |
| Average current for duration tSTORE |
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ISB | VCC Standby Current |
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| > (VCC – 0.2). All others VIN < 0.2V or > (VCC – 0.2V). |
| 3 | mA | |||||||
CE |
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| Standby current level after nonvolatile cycle is complete. |
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| Inputs are static. f = 0 MHz. |
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IIX | Input Leakage Current |
| VCC = Max, VSS < VIN < VCC |
| +1 | μA | ||||||||
| (except HSB) |
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| Input Leakage Current |
| VCC = Max, VSS < VIN < VCC |
| +1 | μA | ||||||||
| (For HSB) |
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IOZ |
| VCC = Max, VSS < VIN < VCC, |
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| > VIH |
| +1 | μA | |||||
| CE | OE |
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| Leakage Current |
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VIH | Input HIGH Voltage |
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| 2.0 | VCC + 0.5 | V |
VIL | Input LOW Voltage |
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| Vss – 0.5 | 0.8 | V |
VOH | Output HIGH Voltage |
| IOUT = |
| 2.4 |
| V | |||||||
VOL | Output LOW Voltage |
| IOUT = 4 mA |
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| 0.4 | V | |||||||
VCAP | Storage Capacitor | Between VCAP pin and VSS, 5V Rated |
| 61 | 82 | μF | ||||||||
Notes
8.Outputs shorted for no more than one second. No more than one output shorted at a time.
9.Typical conditions for the active current shown on the front page of the data sheet are average values at 25°C (room temperature), and VCC = 5V. Not 100% tested.
10.The HSB pin has
Document Number: | Page 7 of 21 |
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