ADCMP581BCP-R2 Просмотр технического описания (PDF) - Analog Devices
Номер в каталоге
Компоненты Описание
производитель
ADCMP581BCP-R2 Datasheet PDF : 16 Pages
| |||
ADCMP580/ADCMP581/ADCMP582
Parameter
ADCMP582 (PECL)
Output Voltage High Level
Output Voltage High Level
Output Voltage High Level
Output Voltage Low Level
Output Voltage Low Level
Output Voltage Low Level
Output Voltage Differential
AC PERFORMANCE
Propagation Delay
Propagation Delay Temperature Coefficient
Propagation Delay Skew—Rising
Transition to Falling Transition
Overdrive Dispersion
Symbol
VOH
VOH
VOH
VOL
VOL
VOL
tPD
ΔtPD/dT
Slew Rate Dispersion
Pulse Width Dispersion
Duty Cycle Dispersion 5% to 95%
Common-Mode Dispersion
Equivalent Input Bandwidth1
Toggle Rate
Deterministic Jitter
Deterministic Jitter
RMS Random Jitter
Minimum Pulse Width
Minimum Pulse Width
Rise/Fall Time
POWER SUPPLY
Positive Supply Voltage
Negative Supply Voltage
ADCMP580 (CML)
Positive Supply Current
Negative Supply Current
Power Dissipation
ADCMP581 (NECL)
Positive Supply Current
Negative Supply Current
Power Dissipation
ADCMP582 (PECL)
Logic Supply Voltage
Input Supply Current
Output Supply Current
Negative Supply Current
Power Dissipation
Power Supply Rejection (VCCI)
Power Supply Rejection (VEE)
Power Supply Rejection (VCCO)
BWEQ
DJ
DJ
RJ
PWMIN
PWMIN
tR, tF
VCCI
VEE
IVCCI
IVEE
PD
IVCCI
IVEE
PD
VCCO
IVCCI
IVCCO
IVEE
PD
PSRVCCI
PSRVEE
PSRVCCO
Condition
VCCO = 3.3 V
50 Ω to VCCO − 2 V, TA = 125°C
50 Ω to VCCO − 2 V, TA = 25°C
50 Ω to VCCO − 2 V, TA = −55°C
50 Ω to VCCO − 2 V, TA = 125°C
50 Ω to VCCO − 2 V, TA = 25°C
50 Ω to VCCO − 2 V, TA = −55°C
50 Ω to VCCO − 2.0 V
Min
Typ
Max
Unit
VCCO − 0.99 VCCO − 0.87 VCCO − 0.75 V
VCCO − 1.06 VCCO − 0.94 VCCO − 0.82 V
VCCO − 1.11 VCCO − 0.99 VCCO − 0.87 V
VCCO − 1.43 VCCO − 1.26 VCCO − 1.13 V
VCCO − 1.50 VCCO − 1.33 VCCO − 1.20 V
VCCO − 1.55 VCCO − 1.35 VCCO − 1.25 V
340
395
450
mV
VOD = 500 mV
180
0.25
VOD = 500 mV, 5 V/ns
10
50 mV < VOD < 1.0 V
10
10 mV < VOD < 200 mV
15
2 V/ns to 10 V/ns
15
100 ps to 5 ns
15
1.0 V/ns, 15 MHz, VCM = 0.0 V
10
VOD = 0.2 V, −2 V < VCM < 3 V
5
0.0 V to 400 mV input,
8
tR = tF = 25 ps, 20/80
>50% output swing
12.5
VOD = 500 mV, 5 V/ns,
15
PRBS31 − 1 NRZ, 5 Gbps
VOD = 200 mV, 5 V/ns,
25
PRBS31 − 1 NRZ, 10 Gbps
VOD = 200 mV, 5 V/ns, 1.25 GHz
0.2
ΔtPD < 5 ps
100
ΔtPD < 10 ps
80
20/80
37
ps
ps/°C
ps
ps
ps
ps
ps
ps
ps/V
GHz
Gbps
ps
ps
ps
ps
ps
ps
+4.5
+5.0
+5.5
V
−5.5
−5.0
−4.5
V
VCCI = 5.0 V, 50 Ω to GND
6
8
mA
VEE = −5.0 V, 50 Ω to GND
−50
−40
−34
mA
50 Ω to GND
230
260
mW
VCCI = 5.0 V, 50 Ω to −2 V
6
8
mA
VEE = −5.0 V, 50 Ω to −2 V
−35
−25
−19
mA
50 Ω to −2 V
155
200
mW
+2.5
+3.3
+5.0
V
VCCI = 5.0 V, 50 Ω to VCCO − 2 V
6
8
mA
VCCO = 5.0 V, 50 Ω to VCCO − 2 V
44
55
mA
VEE = −5.0 V, 50 Ω to VCCO − 2 V −35
−25
−19
mA
50 Ω to VCCO − 2 V
310
350
mW
VCCI = 5.0 V + 5%
−75
dB
VEE = −5.0 V + 5%
−60
dB
VCCO = 3.3 V + 5% (ADCMP582)
−75
dB
1 Equivalent input bandwidth assumes a simple first-order input response and is calculated with the following formula: BWEQ = 0.22/(trCOMP2 – trIN2), where trIN is the 20/80
transition time of a quasi-Gaussian input edge applied to the comparator input and trCOMP is the effective transition time digitized by the comparator.
Rev. A | Page 4 of 16
Share Link: 