ev. 1.3_2 MO 2 E 2 POM -248/16 8-Pin DIP ( DP8-DP8-E) 8-Pin OP ( FJ8-DFJ8-E) :µ Max. (V =5.5 V) :.8 m Max. (V =5.5 V, f=4khz).4 m Max. (V =4.5 V, f=1khz) :2.5 5.5 V :1.8 5.5 V 16 (-248, -2416) GN 1 2 8-Pin DIP op view -248DP-zz-uuw -2416DP-zz-uuw -248/162 E 2 POM8161 8, 2 8 5V±1%1 ms Max. V WP L D 1 : 1 5 : 1 (-248, -2416) -248 : 8-2416 : 16 1, 2, 4 (-24X) 1 2 GND 8-Pin OP op view V WP L D -248FJ-zz-uuw -2416FJ-zz-uuw zz uuw 1 DIP OP 1 1-248N ()*, -2416GND 1 2 2 GND 2 3 3-248 -2416GND GND 4 4 D 5 5 L 6 6 WP 7 7 V : GND : V 8 8 * GND V
MO 2 E 2 POM -248/16 ev. 1.3_2 L D WP V GND 2* D IN LOD / W D OU OMP LOD 3 Min. yp. Max. V IN Y V IH V =2.5 5.5 V V =1.8 2.5 V V IL V =2.5 5.5 V 2 V =1.8 2.5 V 2 V.3 +7. V V IN.3 V +.3 V V OU.3 V V bias 5 +95 stg 65 +15 1.8 2.5.7 V.8 V.. 5.5 5.5 V V.3 V.2 V opr 4 +85 E POM2 * -248 V V V V V V
ev. 1.3_2 MO 2 E 2 POM -248/16 4 (a=25, f= MHz, V =5 V) Min. yp. Max. IN V IN = V (L,, 1, 2, WP) 1 pf I / O V I / O = V (D) 1 pf D 5 Min. yp. Max. N W 1 5 6 V =4.5 V 5.5 V V =2.5 4.5 V V =1.8 2.5 V Min. yp. Max. Min. yp. Max. Min. yp. Max. I 1.8 f=4khz I 2 4. f=4khz.4 f=1khz 3.5 f=1khz.3 m f=1khz m V =4.5 V 5.5 V V =2.5 4.5 V V =1.8 2.5 V Min. yp. Max. Min. yp. Max. Min. yp. Max. I B V IN =V or GND.6.4 µ I LI V IN =GND V.1.1.1 µ I LO V OU =GND V.1.1.1 µ V OL I OL=3.2m.4.4 V I OL =1.5m.3.3.5 V I OL =1µ.1.1.1 V V H 1.5 5.5 1.5 4.5 1.5 2.5 V
MO 2 E 2 POM -248/16 ev. 1.3_2 V 8.1.9 V 2ns.5 V D =kω =1pF 1pF+kΩ 3 9 V =1.8V 5.5V V =4.5V 5.5V Min. yp. Max. Min. yp. Max. L f L 1 4 khz LL t LOW 4.7 1.3 µs LH t HIGH 4..6 µs D t.3 3.5.3 µs D t DH.3.3 µs t U. 4.7.6 µs t HD. 4..6 µs t U.D 1 5 ns t HD.D ns t U.O 4.7.6 µs L / D t.3 µs L / D t F.3.3 µs t BUF 4.7 1.3 µs t I 1 1 ns L D IN t HIGH t LOW t F t t HD.D t t t U.D U. HD. t U.O t t DH t BUF D OU 4
ev. 1.3_2 MO 2 E 2 POM -248/16 1 V =4.5 5.5V V =2.5 4.5V Min. yp. Max. Min. yp. Max. t W --.8 -- 4. 5. ms t W L D D 1. -248 2 GND V -248 2-2416 GND V 2. D() D Nch D V 3. L () 5 L L 4. WP -248-2416 WP () WP GND WP V EEPOM:-24xx
MO 2 E 2 POM -248/16 ev. 1.3_2 1. L HD HL 2. L HD LH EEPOM L D 3. t U. t HD. tu.o 6 L L D L H D L t U.D t HD.D D 7
ev. 1.3_2 MO 2 E 2 POM -248/16 4. 8 9 D L EEPOM L (EEPOM) 1 8 9 D () D (EEPOM) 5. 8 7 1 / D 4 11 3 (P2P1P) ( -248 P2 2 ) 3 (P2P1P) -248-2416 4 8 256-248 -2416 MB 9 1 1 2 P1 P /W 1 1 P2 P1 P /W t LB t DH
MO 2 E 2 POM -248/16 ev. 1.3_2 6. 6.1 EEPOM 7 / 8 8 EEPOM EEPOM D LINE 6.2 W I DEVIE DDE E WOD DDE D 1 1 M B P2 P1 P W7W6W5W4W3W2W1W D7 D6 D5 D4 D3 D2 D1 D L / B W 1-248 -2416 16 (-248P22) 8 EEPOM 7 / 8 8 8 8 EEPOM O P D IN (DDE INEMEN) W I DEVIE DDE E WOD DDE (n) D (n) D (n+1) D (n+x) O P D LINE 1 1 P2 P1P W7W6W5W4W3W2W1W D7 D6 D5 D4 D3 D2 D1 D D7 D D7 D M B L B / W (-248P22) D IN D IN D IN 11
ev. 1.3_2 MO 2 E 2 POM -248/16-248 -2416 4 8 16 4 (P2P1 P) 4 6.3 EEPOM EEPOM EEPOM () / EEPOM / 1 6.4-248-2416 PU WP V WP GND WP GND
MO 2 E 2 POM -248/16 ev. 1.3_2 7. 7.1 EEPOM VH EEPOM EEPOM n EEPOM 7 / 1-248 / 16 (P1P) / (P2P1P) L n 8 EEPOM 8 L n+1 D LINE DEVIE DDE 1 1 M B P2 P1 P 12 EEPOM 8 L EEPOM 8 L ( 4 ) E D 1 L / B W (-248P22) NO from Master Device D7 D6 D5 D4 D3 D2 D1 D D O P D IN
ev. 1.3_2 MO 2 E 2 POM -248/16 7.2 D LINE EEPOM EEPOM 7 / 8 EEPOM EEPOM EEPOM 7 / 1 L 8 EEPOM DEVIE DDE 1 1 M B P2 P1 P W I E L / B W WOD DDE (n) W7W6W5W4W3W2W1W 1 1 P2 P1 P 1 D7 D6 D5 D4 D3 D2 D1 D DUMMY WIE (-248P22) 13 DEVIE DDE E D NO from Master Device D (n) O P D IN
MO 2 E 2 POM -248/16 ev. 1.3_2 D LINE 7.3 EEPOM 7 / 1 L 8 EEPOM 8 L EEPOM EEPOM DEVIE DDE E D 1 D7 D D7 D D7 D D7 D / W D (n) D IN D (n+1) D (n+2) D (n+x) D IN 14 D IN NO from Master Device D IN O P
ev. 1.3_2 MO 2 E 2 POM -248/16 8. 8 L 8 L L 8 9 1 8 9 D / W=1 D7 D 15 L 8 9 1 8 9 D / W= D7 D 16 I 2 II 2 I 2 I I 2 I I 2
MO 2 E 2 POM -248/16 ev. 1.3_2 1. D 1.1 I 1 a 1.2 I 1 a 2 V =5.5 V fscl=1 khz D=11 4 V =5.5 V fscl=4 khz D=11 I 1 (µ) I 1 (µ) 1 2 a () 1.3 I 1 a I 1 (µ) 2 1 V =3.3 V fscl=1 khz D=11 a () 1.5 I 1 V 2 I 1 (µ) 1 a=25 fscl=1 khz D=11 2 3 4 5 6 7 V (V) 1.7 I 1 fscl V =5. V a=25 a () 1.4 I 1 a I 1 (µ) 6 4 V =1.8 V fscl=1 khz D=11 a () 1.6 I 1 V I 1 (µ) 4 2 a=25 fscl=4 khz D=11 2 3 4 5 6 7 V (V) 1.8 I 2 a V =5.5 V fscl=1 khz 4 I 1 (µ) I 2 (m) 2.5 1 2 fscl(hz) 3 4 a ()
ev. 1.3_2 MO 2 E 2 POM -248/16 1.9 I 2 a V =5.5 V fscl=4 khz 1.1 I 2 a V =3.3 V fscl=1 khz 3. I 2 (m) 1.5 I 2 (m).5 a () 1.11 I 2 a I 2 (m).5 V =2.5 V fscl=1 khz a () 1.13 I 2 V I 2 (m) 3. 1.5 a=25 fscl=4 khz 2 4 5 6 7 V (V) 1.15 I LI a I LI (µ).5 V =5.5 V, 1, 2, D L, E/WP=V a () 1.12 I 2 V I 2 (m).5 a=25 fscl=1 khz 2 3 4 5 6 7 V (V) 1.14 I B a I B () 1-6 1-7 1-8 1-9 1-1 1-11 V =5.5 V a () 1.16 I LI a.5 V =5.5 V, 1, 2, D L, E/WP=5.5V I LI (µ) a () a ()
MO 2 E 2 POM -248/16 ev. 1.3_2 1.17 I LO a V =5.5 V D=V 1.18 I LO a V =5.5 V D=5.5 V I LO (µ).5 I LO (µ).5 a () 1.19 V OL a V OL (V).3.2.1 V =4.5 V I OL =2.3 m a () 1.21 I OL a I OL (m) 2 1 V =4.5 V V OL =.45 V a () 1.23 HIGHVIHV 3. a=25, 1, 2, D L, E/WP a () 1.2 V OL a V OL (V).3.2 V =1.8 V I OL =1 µ a () 1.22 I OL a I OL (m).5 V =1.8 V V OL =.1 V a () 1.24 HIGHVIHa V =5. V, 1, 2, D L, E/WP 3. VIH (V) 2. VIH (V) 2. 1 2 3 4 5 6 7 V (V) a ()
ev. 1.3_2 MO 2 E 2 POM -248/16 1.25 LOWVILV 1.26 LOWVILa 3. a=25, 1, 2, D L, E/WP 3. a=5.v, 1, 2, D L, E/WP VIL (V) 2. VIL (V) 2. 1 2 3 4 5 6 7 V (V) a ()
MO 2 E 2 POM -248/16 ev. 1.3_2 2. 2.1 f max V 2.2 t W V a=25 5 a=25 f max 1M (Hz) 1 1 t W (ms) 4 3 2 1 1 2 3 4 5 V (V) 2.3 t W a t W (ms) 1.5.5 V =4.5 V a () 2.5 Dt PD a t PD (µs) 1.5.5 V =4.5 V a () 2.7 Dt PD a t PD (µs) 3. 2. V =1.8 V 1 2 3 4 5 6 7 V (V) 2.4 t W a t W (ms) 4 3 2 V =2.5 V a () 2.6 Dt PD a t PD (s) 1.5.5 V =2.7 V a () a ()
ev. 1.3_2 MO 2 E 2 POM -248/16-24x yyy - zz -uu w P () 1 : 1 5 (DIPOP) B DP : DIP FJ : OP -248 : 8k -2416 : 16k P -248-2416 1 DP8- DP DP8-1 DP8-E 1 FJ8-D FJ B FJ8-D 1 FJ8-E DP 1 DP8- FJ B 1 FJ8-D 1. FJ (OP) 2.