Data Sheet
TYPICAL PERFORMANCE CHARACTERISTICS
1.0TA = 25°C1 CHANNEL0.9CL = 50pF0.80.7VCCA = 3.3V, VCCY = 5VADG3304
3.02.5TA = 25°C1 CHANNELCL = 15pF2.0ICCA (mA)0.50.40.30.20.104860-004ICCY (mA)0.6VCCA = 3.3V, VCCY = 5V1.5VCCA = 1.8V, VCCY = 3.3V1.0VCCA = 1.8V, VCCY = 3.3V0.505101520253035DATA RATE (Mbps)40455005101520253035404550DATA RATE (Mbps)Figure 5. ICCA vs. Data Rate (A→Y Level Translation)
10TA = 25°C1 CHANNEL9CL = 50pF87Figure 8. ICCY vs. Data Rate (Y→A Level Translation)
1.61.41.2TA =25°C1 CHANNELVCCA = 1.2VVCCY = 1.8V20MbpsVCCA = 3.3V, VCCY = 5VICCY (mA)543210051015VCCA = 1.2V, VCCY = 1.8V04860-005ICCY (mA)61.00.810Mbps0.60.40.21Mbps04860-01204860-013VCCA = 1.8V, VCCY = 3.3V5Mbps20253035DATA RATE (Mbps)404550013233343536373CAPACITIVE LOAD (pF)Figure 6. ICCY vs. Data Rate (A→Y Level Translation)
Figure 9. ICCY vs. Capacitive Load at Pin Y for A→Y (1.2 V→1.8 V)
Level Translation
3.02.5TA = 25°C1 CHANNELCL = 15pFVCCA = 3.3V, VCCY = 5V1.00.90.8TA = 25°C1 CHANNELVCCA = 1.2VVCCY =1.8V2.00.7ICCA (mA)ICCA (mA)0.60.50.40.30.220Mbps1.51.0VCCA = 1.8V, VCCY = 3.3V0.5VCCA = 1.2V, VCCY = 1.8V04860-00610Mbps5Mbps1Mbps0.100510152025303540455001323DATA RATE (Mbps)3343CAPACITIVE LOAD (pF)53Figure 7. ICCA vs. Data Rate (Y→A Level Translation)
Figure 10. ICCA vs. Capacitive Load at Pin A for Y→A (1.8 V→1.2 V)
Level Translation
Rev. E | Page 9 of 21
04860-0070VCCA = 1.2V, VCCY = 1.8V0VCCA = 1.2V, VCCY = 1.8VADG3304 TERMINOLOGY
VIHA
Logic input high voltage at Pin A1 to Pin A4. VILA
Logic input low voltage at Pin A1 to Pin A4. VOHA
Logic output high voltage at Pin A1 to Pin A4. VOLA
Logic output low voltage at Pin A1 to Pin A4. CA
Capacitance measured at Pin A1 to Pin A4 (EN = 0). ILA, Hi-Z
Leakage current at Pin A1 to Pin A4 when EN = 0 (high impedance state at Pin A1 to Pin A4). VIHY
Logic input high voltage at Pin Y1 to Pin Y4. VILY
Logic input low voltage at Pin Y1 to Pin Y4. VOHY
Logic output high voltage at Pin Y1 to Pin Y4. VOLY
Logic output low voltage at Pin Y1 to Pin Y4. CY
Capacitance measured at Pin Y1 to Pin Y4 (EN = 0). ILY, Hi-Z
Leakage current at Pin Y1 to Pin Y4 when EN = 0 (high impedance state at Pin Y1 to Pin Y4). VIHEN
Logic input high voltage at the EN pin. VILEN
Logic input low voltage at the EN pin. CEN
Capacitance measured at EN pin. ILEN
Enable (EN) pin leakage current.
tEN
Three-state enable time for Pin A1 to Pin A4 and Pin Y1 to Pin Y4.
tP, A→Y
Propagation delay when translating logic levels in the A→Y direction.
tR, A→Y
Rise time when translating logic levels in the A→Y direction.
Data Sheet
TF, A→Y
Fall time when translating logic levels in the A→Y direction. DMAX, A→Y
Guaranteed data rate when translating logic levels in the A→Y direction under the driving and loading conditions specified in Table 1.
TSKEW, A→Y
Difference between propagation delays on any two channels when translating logic levels in the A→Y direction.
tPPSKEW, A→Y
Difference in propagation delay between any one channel and the same channel on a different part (under same driving/ loading conditions) when translating in the A→Y direction. tP, Y→A
Propagation delay when translating logic levels in the Y→A direction.
tR, Y→A
Rise time when translating logic levels in the Y→A direction. tF, Y→A
Fall time when translating logic levels in the Y→A direction. DMAX, Y→A
Guaranteed data rate when translating logic levels in the Y→A direction under the driving and loading conditions specified in Table 1.
tSKEW, Y→A
Difference between propagation delays on any two channels when translating logic levels in the Y→A direction.
tPPSKEW, Y→A
Difference in propagation delay between any one channel and the same channel on a different part (under the same driving/ loading conditions) when translating in the Y→A direction. VCCA
VCCA supply voltage. VCCY
VCCY supply voltage. ICCA
VCCA supply current. ICCY
VCCY supply current.
IHi-Z, A
VCCA supply current during three-state mode (EN = 0). IHi-Z, Y
VCCY supply current during three-state mode (EN = 0).
Rev. E | Page 16 of 21