CY7C1318CV18
CY7C1320CV18
Maximum Ratings
Exceeding maximum ratings may impair the useful life of the device. These user guidelines are not tested.
Storage Temperature .................................
Ambient Temperature with Power Applied..
Supply Voltage on VDD Relative to GND | ||
Supply Voltage on VDDQ Relative to GND | ||
DC Applied to Outputs in | ||
DC Input Voltage[11] | ||
Current into Outputs (LOW) | 20 mA | |
Static Discharge Voltage | ||
Latch up Current | >200 mA | |
Neutron Soft Error Immunity
Parameter | Description | Test | Typ | Max* | Unit |
Conditions | |||||
LSBU | Logical | 25°C | 320 | 368 | FIT/ |
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|
|
| Mb | |
| Upsets |
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|
|
|
LMBU | Logical | 25°C | 0 | 0.01 | FIT/ |
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|
|
| Mb | |
| Upsets |
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|
|
|
SEL | Single Event | 85°C | 0 | 0.1 | FIT/ |
| Latch up |
|
|
| Dev |
*No LMBU or SEL events occurred during testing; this column represents a statistical χ2, 95% confidence limit calculation. For more details refer to Appli- cation Note AN 54908 “Accelerated Neutron SER Testing and Calculation of Terrestrial Failure Rates”
Operating Range
Range | Ambient | V |
| [15] | V | [15] |
Temperature (T ) | DD | |||||
| A |
|
|
| DDQ | |
Commercial | 0°C to +70°C | 1.8 ± 0.1V | 1.4V to | |||
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| VDD |
Industrial |
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|
| ||
Electrical Characteristics
DC Electrical Characteristics
Over the Operating Range[12]
Parameter | Description | Test Conditions |
| Min | Typ | Max | Unit | |
VDD | Power Supply Voltage |
|
|
| 1.7 | 1.8 | 1.9 | V |
VDDQ | I/O Supply Voltage |
|
|
| 1.4 | 1.5 | VDD | V |
VOH | Output HIGH Voltage | Note 16 |
|
| VDDQ/2 – 0.12 |
| VDDQ/2 + 0.12 | V |
VOL | Output LOW Voltage | Note 17 |
|
| VDDQ/2 – 0.12 |
| VDDQ/2 + 0.12 | V |
VOH(LOW) | Output HIGH Voltage | IOH = −0.1 mA, Nominal Impedance |
| VDDQ – 0.2 |
| VDDQ | V | |
VOL(LOW) | Output LOW Voltage | IOL = 0.1 mA, Nominal Impedance |
| VSS |
| 0.2 | V | |
VIH | Input HIGH Voltage |
|
|
| VREF + 0.1 |
| VDDQ + 0.3 | V |
VIL | Input LOW Voltage |
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|
|
| VREF – 0.1 | V | |
IX | Input Leakage Current | GND ≤ VI ≤ VDDQ |
|
| −5 |
| 5 | μA |
IOZ | Output Leakage Current | GND ≤ VI ≤ VDDQ, Output Disabled |
| −5 |
| 5 | μA | |
VREF | Input Reference Voltage[18] | Typical Value = 0.75V |
|
| 0.68 | 0.75 | 0.95 | V |
IDD[19] | VDD Operating Supply | VDD = Max, | 267 MHz | (x18) |
|
| 805 | mA |
|
| IOUT = 0 mA, |
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|
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| (x36) |
|
| 855 |
| |
|
| f = fMAX = 1/tCYC |
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| 250 MHz | (x18) |
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| 730 |
| |
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| (x36) |
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| 775 |
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| 200 MHz | (x18) |
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| 600 |
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| (x36) |
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| 635 |
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| 167 MHz | (x18) |
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| 510 |
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| (x36) |
|
| 540 |
|
Notes
15.Power up: assumes a linear ramp from 0V to VDD(min) within 200 ms. During this time VIH < VDD and VDDQ < VDD.
16.Outputs are impedance controlled. IOH =
17.Outputs are impedance controlled. IOL = (VDDQ/2)/(RQ/5) for values of 175Ω < RQ < 350Ω.
18.VREF(min) = 0.68V or 0.46VDDQ, whichever is larger, VREF(max) = 0.95V or 0.54VDDQ, whichever is smaller.
19.The operation current is calculated with 50% read cycle and 50% write cycle.
Document Number: | Page 18 of 26 |
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