CXA2586M
Electrical and Optical Characteristics
Item
Current consumption
Output offset voltage (A to D)
Output offset voltage (E, F)
Output offset voltage (RF)
Symbol
I
CC
Voff
Voff
Voff
In the dark
In the dark, Vc reference
In the dark, Vc reference
In the dark, GND reference
A-B, in the dark
Output voltage difference
∆Voff
C-D, in the dark
(A+C) – (B+D), in the dark
E-F, in the dark
Sum of output offset voltages
Output voltage (A to D)
Output voltage (E, F)
Output voltage (RF)
Output voltage ratio (E, F/A to D)
Output voltage ratio (RF/A to D)
Maximum output voltage (A to D)
Maximum output voltage (E, F)
Maximum output voltage (RF)
Frequency response (A to D)
Voffs
Vo
Vo
Vo
V
OR
V
OR
Vo
Vo
Vo
fc
A+B+C+D, in the dark
λ=650
nm, 780 nm, Po=10 µW
λ=650
nm, 780 nm, Po=10 µW
λ=650
nm, 780 nm, Po=10 µW
λ=650
nm, 780 nm, Po=10 µW
λ=650
nm, 780 nm, Po=10 µW
λ=650
nm, 780 nm, Po=100 µW
λ=650
nm, 780 nm, Po=100 µW
λ=650
nm, 780 nm, Po=100 µW
λ=650
nm, 780 nm
Po=10 µW
DC
, 4 µWp-p
100 kHz reference, –3 dB
λ=650
nm,780 nm
Po=10 µW
DC
, 4 µWp-p
100 kHz reference, –3 dB
λ=650
nm, 780 nm
Po=10 µW
DC
, 4 µWp-p
100 kHz reference, –3 dB
100 kHz to 50 MHz
100 kHz to 50 MHz
f=50 MHz, RBW=30 kHz
f=50 MHz, RBW=30 kHz
Conditions
(V
CC
=5.0 V, V
C
=2.5 V, Ta=25 °C)
Min.
—
–25
–15
1.25
–20
–20
–20
–15
–100
180
312
302
1.71
1.67
3.8
3.8
3.8
70
Typ.
15
0
0
1.4
0
0
0
0
0
246
447
432
1.81
1.76
4.0
4.0
4.0
100
Max.
20
25
15
1.55
20
20
20
15
100
312
581
561
1.90
1.84
—
—
—
—
Unit
mA
mV
mV
V
mV
mV
mV
mV
mV
mV
mV
mV
—
—
V
V
V
MHz
Frequency response (E, F)
fc
1
5
—
MHz
Frequency response (RF)
Group delay difference (A to D)
Group delay difference (RF)
Output noise level (A to D)
Output noise level (RF)
fc
∆
Gd
∆
Gd
Vn
Vn
80
—
—
—
—
105
1
1
–87
–76
—
5
5
–82
–71
MHz
ns
ns
dBm
dBm
Note 1)
Output offset voltage: Vc is the reference for A to F, GND for RF.
Note 2)
Output voltage: Vc is the reference for A to F, GND for RF. However, the offset voltage is excluded.
Note 3)
Output voltage, frequency response, group delay, output noise level: Confirmation of design.
Note 4)
Measurement by the optical input: Measurement is made by emitting the light to the center of each
photodiode.
In regard of the frequency response of A to D and RF, the same response can be obtained by emitting
the light to the A to D photodiodes evenly.
—3—