CXD3521GG Interface and Driver IC for LCD Description The CXD3521GG is an interface and driver IC for the color LCD module ACX704AKM/BKM. Features • Generates the color LCD module ACX704AKM/BKM drive pulse. • Supports standby mode • Built-in 9-channel reference voltage driver • Built-in common voltage driver Applications PDA, compact LCD monitor, etc. 128 pin TFBGA (Plastic) Absolute Maximum Ratings (Ta = 25°C) • Supply voltage 1 VDD1 VSS – 0.3 to +4.6 • • • • Structure Silicon gate CMOS IC Supply voltage 2 VDD2 Input voltage VI Output voltage VO Storage temperature Tstg V VSS – 0.3 to +6.0 V VSS – 0.3 to VDD + 0.3 V VSS – 0.3 to VDD + 0.3 V –55 to +125 Recommended Operating Conditions 3.0 to 3.6 • Supply voltage 1 VDD1 • Supply voltage 2 VDD2 4.7 to 5.3 • Operating temperature Topr –25 to +75 °C V V °C Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits. –1– E01408-PS CXD3521GG Block Diagram VDD1 (3.3V) C10, J6, L11, M1 VSS1 (GND) B11, G9, L2 Serial/Parallel Transform Block M11, L10, M10, M9 J7, M6, L6, K6 R3 H12 F12, F11, E12, E11 R2 H11 D10, A9, B9, C9 R1 H10 R31, R21, R11, R01 XR31, XR21, XR11, XR01 R32, R22, R12, R02 XR32, XR22, XR12, XR02 L9, M8, L8, K8 G31, G21, G11, G01 M5, L5, K5, J5 XG31, XG21, XG11, XG01 R0 H9 G3 J12 B12, C12, D12, A11 G2 J11 G32, G22, G12, G02 G1 J10 D9, A8, B8, C8 XG32, XG22, XG12, XG02 G0 J9 J8, M7, L7, K7 B31, B21, B11, B01 M4, L4, M3, L3 XB31, XB21, XB11, XB01 B3 K12 B2 K11 C11, D11, A10, B10 B32, B22, B12, B02 B1 K10 D8, A7, B7, C7 B0 K9 XB32, XB22, XB12, XB02 MCK L12 E9 PCO PCI G11 Power CTR. H4, H3 HST1, XHST1 Delay Hsync/DENB G12 H2, H1 HST2, XHST2 H Counter SLIN E10 Delay TESTP M12 H Timing Pulse GEN. TEST A12 V Counter Vsync G11 K2, K1 HCK1, XHCK1 J2, J1 HCK2, XHCK2 G4, G3, OE1, XOE1, G2, G1 OE2, XOE2 M2, L1 VST, XVST CLR F9 V Timing Pulse GEN. J4, J3 VCK, XVCK K4, K3 ENB, XENB Timing Generator Block VDD2 (5.0V) B2, D2, D7 VSS1 (GND) B4, D3, F4 F10 TESTO F3 V0 E2 V1 VH1 F2 VL1 F1 E4 V2 VH2 E1 D1 V3 VL2 E3 VRFSTB A1 Resistor Array Block C1 V4 D4 V5 C3 V6 VH6 C2 VL6 B1 B3 V7 VH8 A2 D5 V8 VL8 C4 A3 VCOM Reference Voltage Driver Block –2– CXD3521GG Pin Configuration (Top View) 1 2 3 4 5 6 7 8 9 10 11 12 VRFSTB VH8 VCOM TESTL1 TESTL7 TESTL5 XB22 XG22 XR22 B12 G02 TEST1 VL6 VDD2 V7 VSS2 TESTL8 TESTL4 XB12 XG12 XR12 B02 VSS1 G32 V4 VH6 V6 VL8 TESTL2 TESTL6 XB02 XG02 XR02 VDD1 B32 G22 V3 VDD2 VSS2 V5 V8 TESTL3 VDD2 XB32 XG32 XR32 B22 G12 VH2 V1 VL2 V2 PCO SLIN R02 R12 VL1 VH1 V0 VSS2 CLR TESTO R22 R32 XOE2 OE2 XOE1 OE1 VSS1 PCI Vsync Hsync/ DENB XHST2 HST2 XHST1 HST1 R0 R1 R2 R3 XHCK2 HCK2 XVCK VCK XG01 VDD1 XR31 B31 G0 G1 G2 G3 XHCK1 HCK1 XENB ENB XG11 XR01 B01 G01 B0 B1 B2 B3 XVST VSS1 XB01 XB21 XG21 XR11 B11 G11 G31 R21 VDD1 MCK VDD1 VST XB11 XB31 XG31 XR21 B21 G21 R01 R11 R31 TESTP A B C D E F G H J K L M –3– CXD3521GG Pin Description Pin No. Symbol I/O Description Input pin for open status B11 VSS1 — GND (Logic) — G9 VSS1 — GND (Logic) — L2 VSS1 — GND (Logic) — C10 VDD1 — Power supply (3.3V) — J6 VDD1 — Power supply (3.3V) — L11 VDD1 — Power supply (3.3V) — M1 VDD1 — Power supply (3.3V) F9 CLR I System reset (Cleared at 0V) — UP∗ H12 R3 I Red signal input (MSB) — H11 R2 I Red signal input — H10 R1 I Red signal input — H9 R0 I Red signal input (LSB) — J12 G3 I Green signal input (MSB) — J11 G2 I Green signal input — J10 G1 I Green signal input — J9 G0 I Green signal input (LSB) — K12 B3 I Blue signal input (MSB) — K11 B2 I Blue signal input — K10 B1 I Blue signal input — K9 B0 I Blue pulse input (LSB) — G12 Hsync/DENB I Hsync pulse input/Data enable signal input — G11 Vsync I Vsync pulse input — L12 MCK I Dot clock input — G10 PCI I Power control signal input — E10 SLIN I Sync input signal mode selector switch — F10 TESTO O Test output (Leave it open.) — E9 PCO O Power control signal output — M11 R31 O Red signal output — L10 R21 O Red signal output — M10 R11 O Red signal output — M9 R01 O Red signal output — L9 G31 O Green signal output — M8 G21 O Green signal output — L8 G11 O Green signal output — K8 G01 O Green signal output — J8 B31 O Blue signal output — ∗ UP: Pull-up (typ. 160kΩ) –4– CXD3521GG Pin No. Symbol I/O Description Input pin for open status M7 B21 O Blue signal output — L7 B11 O Blue signal output — K7 B01 O Blue signal output — J7 XR31 O R31 signal inversion output — M6 XR21 O R21 signal inversion output — L6 XR11 O R11 signal inversion output — K6 XR01 O R01 signal inversion output — M5 XG31 O G31 signal inversion output — L5 XG21 O G21 signal inversion output — K5 XG11 O G11 signal inversion output — J5 XG01 O G01 signal inversion output — M4 XB31 O B31 signal inversion output — L4 XB21 O B21 signal inversion output — M3 XB11 O B11 signal inversion output — L3 XB01 O B01 signal inversion output — M12 TESTP I Test input (Connect to GND.) — A12 TEST I Test input (Connect to GND.) DWN∗ M2 VST O VST pulse output — L1 XVST O VST pulse inversion output — K4 ENB O ENB pulse output — K3 XENB O ENB pulse inversion output — J4 VCK O VCK pulse output — J3 XVCK O VCK pulse inversion output — K2 HCK1 O HCK1 pulse output — K1 XHCK1 O HCK1 pulse inversion output — J2 HCK2 O HCK2 pulse output — J1 XHCK2 O HCK2 pulse inversion output — H4 HST1 O HST1 pulse output — H3 XHST1 O HST1 pulse inversion output — H2 HST2 O HST2 pulse output — H1 XHST2 O HST2 pulse inversion output — G4 OE1 O OE1 pulse output — G3 XOE1 O OE1 pulse inversion output — G2 OE2 O OE2 pulse output — G1 XOE2 O OE2 pulse inversion output — D8 XB32 O B32 signal inversion output — A7 XB22 O B22 signal inversion output — ∗ DWN: Pull-down (typ. 180kΩ) –5– CXD3521GG Pin No. Symbol I/O Description Input pin for open status B7 XB12 O B12 signal inversion output — C7 XB02 O B02 signal inversion output — D9 XG32 O G32 signal inversion output — A8 XG22 O G22 signal inversion output — B8 XG12 O G12 signal inversion output — C8 XG02 O G02 signal inversion output — D10 XR32 O R32 signal inversion output — A9 XR22 O R22 signal inversion output — B9 XR12 O R12 signal inversion output — C9 XR02 O R02 signal inversion output — C11 B32 O Blue signal output — D11 B22 O Blue signal output — A10 B12 O Blue signal output — B10 B02 O Blue signal output — B12 G32 O Green signal output — C12 G22 O Green signal output — D12 G12 O Green signal output — A11 G02 O Green signal output — F12 R32 O Red signal output — F11 R22 O Red signal output — E12 R12 O Red signal output — E11 R02 O Red signal output — B4 VSS2 — GND (Analog) — D3 VSS2 — GND (Analog) — F4 VSS2 — GND (Analog) — B2 VDD2 — Power supply (5.0V) — D2 VDD2 — Power supply (5.0V) — D7 VDD2 — Power supply (5.0V) — A4 TESTL1 O Test output (Leave it open.) — C5 TESTL2 O Test output (Leave it open.) — D6 TESTL3 I Test input (Connect to GND.) DWN∗ B6 TESTL4 I Test input (Connect to GND.) — A6 TESTL5 O Test output (Leave it open.) — A5 TESTL6 I Test input (Connect to GND.) — C6 TESTL7 I Test input (Connect to GND.) — B5 TESTL8 I Test input (Connect to GND.) — F3 V0 O V0 output — ∗ DWN: Pull-down (typ. 180kΩ) –6– CXD3521GG Pin No. Symbol I/O Description Input pin for open status E2 V1 O V1 output — E4 V2 O V2 output — D1 V3 O V3 output — C1 V4 O V4 output — D4 V5 O V5 output — C3 V6 O V6 output — B3 V7 O V7 output — D5 V8 O V8 output — A3 VCOM O VCOM output — A1 VRFSTB I Reference voltage driver on/off selector switch F2 VH1 I VH1 input — F1 VL1 I VL1 input — E1 VH2 I VH2 input — E3 VL2 I VL2 input — C2 VH6 I VH6 input — B1 VL6 I VL6 input — A2 VH8 I VH8 input — C4 VL8 I VL8 input — ∗ DWN: Pull-down (typ. 180kΩ) –7– DWN∗ CXD3521GG Electrical Characteristics (Serial/parallel conversion block, timing generator block) DC Characteristics Item (VDD1 = 3.0 to 3.6V, Ta = –25 to +75°C) Symbol Applicable pins Conditions Min. Typ. Max. Unit Supply voltage VDD1 VDD1 — 3.0 3.3 3.6 V Current consumption IDD1 VDD1 No load, Ta = 25°C VDD1 = 3.3V, MCK: 5.62MHz — 1.5 — mA VIH1 MCK, VRFSTB, TESTL1, TESTL2, TESTL3, TESTL4 0.7VDD1 — — CMOS input cell — — 0.2VDD1 All input pins excluding MCK, VRFSTB, TESTL1, TESTL2, TESTL3, TESTL4 CMOS Schmitt trigger input cell — — 0.75VDD1 0.15VDD1 — — VI = 0V — — 1.0 VI = VDD — — 1.0 VI = 0V 10 — 100 VI = VDD — — 3.0 VI = 0V — — 3.0 VI = VDD 10 — 100 — — 0.2 Input voltage 1 VIL1 Vt+ Input voltage 2 Vt– | IIL1 | Input current 1 | IIH1 | Input current 2 Input current 3 | IIL2 | | IIH2 | | IIL3 | R0, R1, R2, R3, G0, G1, G2, G3, B0, B1, B2, B3, Hsync/DENB, Vsync, MCK, PCI CLR TEST, TESTP, SLIN | IIH3 | VOL1 Output voltage 1 VOH1 VOL2 Output voltage 2 VOH2 VOL3 Output voltage 3 VOH3 V V µA R01, R11, R21, R31, R02, R12, R22, R32, XR01, XR11, XR21, XR31, XR02, XR12, XR22, XR32, IOL1 = 4.0mA G01, G11, G21, G31, G02, G12, G22, G32, XG01, XG11, XG21, XG31, XG02, XG12, XG22, XG32, B01, B11, B21, B31, B02, B12, B22, B32, XB01, XB11, XB21, XB31, XB02, XB12, XB22, XB32, IOH1 = –4.0mA VST, XVST, ENB, XENB, OE1, XOE1, OE2, XOE2, TESTO µA µA V VDD – 0.8 — — — — 0.2 HST1, XHST1, HST2, XHST2, VCK, XVCK, PCO IOL2 = 6.0mA IOH2 = –6.0mA VDD – 0.8 — — HCK1, XHCK1, HCK2, XHCK2 IOL3 = 10.0mA — — 0.4 — — V IOH3 = –10.0mA VDD – 0.8 –8– V CXD3521GG AC Characteristics Item HCK/HST time difference Data output rise time (VDD = 3.0 to 3.6V, Ta = –25 to +75°C) Symbol ∆tHST-HCKU ∆tHST-HCKD tRD Data output fall time tFD Horizontal pulse output rise time tRHP Horizontal pulse output fall time tFHP Vertical pulse output rise time tRVP Vertical pulse output fall time tFVP Applicable pins Conditions∗1 Min. Typ. Max. Unit — — — 15∗2 ns GND – VDD (0 – 90%) — — 35 HCK1, HCK2, XHCK1, XHCK2, HST1, HST2, XHST1, XHST2 R01, R11, R21, R31, R02, R12, R22, R32, XR01, XR11, XR21, XR31, XR02, XR12, XR22, XR32, G01, G11, G21, G31, G02, G12, G22, G32, XG01, XG11, XG21, XG31, XG02, XG12, XG22, XG32, B01, B11, B21, B31, B02, B12, B22, B32, XB01, XB11, XB21, XB31, XB02, XB12, XB22, XB32 ns VDD – GND (100 – 10%) — — 35 HCK1, HCK2, XHCK1, XHCK2, HST1, HST2, XHST1, XHST2 GND – VDD (0 – 90%) — — 35 VDD – GND (100 – 10%) — — 35 VCK, XVCK, VST, XVST, ENB, XENB, OE1, OE2, XOE1, XOE2, PCO, TESTO GND – VDD (0 – 90%) — — 50 VDD – GND (100 – 10%) — — 50 ∗3 35 55 100 ns ∗4 48 50 52 % HCK1, HCK2, XHCK1, XHCK2/ DATA setup time tSTP HCK1, HCK2, XHCK1, XHCK2, R01, R11, R21, R31, R02, R12, R22, R32, XR01, XR11, XR21, XR31, XR02, XR12, XR22, XR32, G01, G11, G21, G31, G02, G12, G22, G32, XG01, XG11, XG21, XG31, XG02, XG12, XG22, XG32, B01, B11, B21, B31, B02, B12, B22, B32, XB01, XB11, XB21, XB31, XB02, XB12, XB22, XB32 HCK, VCK duty dHCK dVCK HCK1, HCK2, XHCK1, XHCK2, VCK, XVCK ns ns ∗1 Load capacitance CL of each output pin is shown below. • R01, R11, R21, R31, R02, R12, R22, R32, XR01, XR11, XR21, XR31, XR02, XR12, XR22, XR32, G01, G11, G21, G31, G02, G12, G22, G32, XG01, XG11, XG21, XG31, XG02, XG12, XG22, XG32, B01, B11, B21, B31, B02, B12, B22, B32, XB01, XB11, XB21, XB31, XB02, XB12, XB22, XB32, OE1, XOE1, OE2, XOE2, TESTO, ENB, XENB : CL = 70pF • HCK1, HCK2, XHCK1, XHCK2 : CL = 180pF • VCK, XVCK : CL = 150pF • HST1, HST2, XHST1, XHST2, VST, XVST, PCO : CL = 100pF ∗2 Absolute value of the time difference of the change point at HST1, XHST1, HCK1 and XHCK1 (50%) is within 15ns. Similarly, absolute value of the time difference of the change point at HST2, XHST2, HCK2 and XHCK2 (50%) is within 15ns. ∗3 tSTP: tST1D, tST1U, tST2D, tST2U ∗4 dHCK = (tHH/(tHH + tHL)) × 100, dVCK = (tVH/(tVH + tVL)) × 100 –9– CXD3521GG Timing Definition Horizontal System tHL tHH VDD1 HCK1 50% 50% 50% GND VDD1 50% XHCK1 50% GND ∆tH ∆tH VDD1 HCK2 50% 50% GND VDD1 50% XHCK2 50% GND ∆tH ∆tH VDD1 HST1 (HST2) 50% GND VDD1 50% XHST1 (XHST2) GND VDD1 HCK1 (HCK2) 50% GND VDD1 50% XHCK1 (XHCK2) GND ∆tHST-HCKU ∆tHST-HCKD – 10 – CXD3521GG Vertical System tVL tVH VDD1 VCK 50% 50% 50% GND VDD1 XVCK 50% 50% GND ∆tV ∆tV DATA VDD1 HCK1 50% 50% GND VDD1 50% XHCK1 50% GND VDD1 HCK2 50% 50% GND VDD1 50% XHCK2 50% GND VDD1 DATA GND tST1D tST2D tST1U tST2U tSTX1U tSTX2U tSTX1D tSTX2D – 11 – CXD3521GG PCI, PCO These pins control to turn power on/off of the ACX704AKM/BKM when the LCD is turned on/off. Connect PCO to DC-DC converter that can control power on/off of the ACX704AKM/BKM. Power-on Sequence • Raise and fall VDD1 and VDD2 simultaneously (within 10ms) • Input the input signal∗1 for 1 field (Min.), and then raise PCI. • After PCI becomes high, latch is performed twice at Vsync. When both of them are high, PCO output is changed from low to high. (Turn the power on of the ACX704AKM/BKM at this timing.) Also, effective screen is displayed after two fields of entire white display from this timing. ±10ms VDD1 VDD1 0 VDD2 VDD2 0 VDD1 CLR 0 PCI Low PCO Low High Pulse∗2 Low Active DATA (out) Low Vsync Low DENB MCK Hsync DATA (in) 1 2 High White Data Valid Low Low Active 1 field (min.) 1 field (min.) 2 fields ∗1 Hsync, Vsync, DENB, MCK, DATA ∗2 HST1, XHST1, HST2, XHST2, HCK1, XHCK1, HCK2, XHCK2, VST, XVST, VCK, XVCK, ENB, XENB, OE1, XOE1, OE2, XOE2, TESTO, (FRP) – 12 – CXD3521GG Power-off Sequence (Standby) • When LCD is off, LCD is turned off after entire white display. ±10ms Standby Mode PCI High Low High PCO Low VDD1 VDD1 0 VDD2 VDD2 0 DATA Valid Pulse∗1 Active All Data: High (XDATA: Low) Low Low Vsync Low DENB Low 3 fields MCK Hsync DATA (in) 10 fields Low Active ∗1 HST1, XHST1, HST2, XHST2, HCK1, XHCK1, HCK2, XHCK2, VST, XVST, VCK, XVCK, ENB, XENB, OE1, XOE1, OE2, XOE2, TESTO, (FRP) SLIN This is a selector switch for sync input signal mode. SLIN: Low → Hsync + Vsync Mode. SLIN: High → DENB ONLY Mode. (Vsync is invalid.) – 13 – Horizontal Direction Input Signal Timing Chart 352 dots 310 315 320 325 335 330 340 345 350 0 5 MCK Hsync∗1 4 dots (min.) 16 dots 16 dots DENB∗1 32 dots DATA 307 308 309 310 311 312 313 314 315 316 317 318 319 320 1 2 3 4 5 6 tch 7 8 9 10 11 tcl MCK tclk thss Hsync∗1 – 14 – DENB∗1 thsw tdes DATA tdeh 1 tds ∗1 Input either Hsync + Vsync or DENB as sync input signal. 2 320 tdh Input Signal AC Characteristics (VDD1 = 3.0 to 3.6V, Ta = –25 to +75°C) Item Symbol ftch MCK low, high pulse width tch, tcl tds tdh tdes tdeh thss thsw DATA setup time DATA hold time DENB setup time DENB hold time Hsync setup time Hsync low pulse width Typ. Max. 3MHz 5.58MHz 8MHz — 0.5tclk — 10ns — — 15ns — — 10ns — — 15ns — — 10ns — — 4tclk — 16tclk CXD3521GG MCK frequency Min. Vertical Direction Input Signal Timing Chart 264 lines 230 235 240 245 250 255 260 0 5 10 15 Hsync∗1 Vsync∗1 10 lines 14 lines DENB∗1 Hsync∗1 (2) (1) (14) (15) – 15 – tvhde Vsync∗1 tvsw DENB∗1 1st Line DATA ∗1 Input either Hsync + Vsync or DENB as sync input signal. Input Signal AC Characteristics (VDD1 = 3.0 to 3.6V, Ta = –25 to +75°C) Item Min. Typ. Max. Hsync falling edge → Vsync falling edge tvhde 3tclk — 352tclk Vsync low pulse width tvsw 2 lines — 14 lines CXD3521GG Symbol Horizontal Direction Timing Chart 280 352 dots 290 300 310 320 330 340 0 10 20 MCK 16 dots Hsync 16 dots 32 dots R/G/B 01 to 31 1 23 4 5 6 7 8 9 316 317 318 319 320 Input DATA Output DENB R/G/B 02 to 32 HST1 270 272 274 276 278 280 282 284 286 288 290 292 294 296 298 300 302 304 306 308 310 312 314 316 318 320 269 271 273 275 277 279 281 283 285 287 289 291 293 295 297 299 301 303 305 307 309 311 313 315 317 319 344 4 dots 2 4 6 8 10 12 14 16 18 20 22 24 1 3 5 7 9 11 13 15 17 19 21 23 348 XHST1 HCK1 XHCK1 342 4 dots 346 HST2 – 16 – XHST2 HCK2 XHCK2 328 OE1 340 XOE1 320 OE2 0 XOE2 304 0 ENB XENB 350 VST XVST 334 VCK 334 FRP CXD3521GG 334 XVCK Vertical Direction Timing Chart 264 lines 240 245 250 255 260 0 5 10 15 20 Hsync Vsync Input Output 10 lines DENB VST 14 lines XVST VCK XVCK – 17 – ENB XENB OE1 XOE1 OE2 XOE2 FRP (O)∗1 FRP (E)∗1 CXD3521GG ∗1 FRP (O): FRP pulse at odd field. FRP (E): FRP pulse at even field. CXD3521GG Reference Voltage Driver Block Block Diagram VDD2 (5.0V) VDD2 VH0 V0 VL0 VH1 V1 VL1 VH2 V2 VL2 VH3 V3 VL3 VH4 V4 VL4 VH5 V5 VL5 VH6 V6 VL6 VH7 V7 VL7 VH8 V8 VL8 VCOM VSS2 Resistor array VRFSTB Level Shift FRP∗1 Level Shift VSS2 ∗1 Internal pulse of the logic block Electrical Characteristics (Reference voltage driver block) Resistor array output voltage (VDD1 = 3.3V, VDD2 = 5.0V, Ta = 25°C) Item Min. Typ. Max. VH0 — 4.800 VH1 — VH2 Unit Item Min. Typ. Max. — VL0 — 0.200 — 3.900 — VL1 — 1.100 — — 3.325 — VL2 — 1.675 — VH3 — 2.950 — VL3 — 2.050 — VH4 — 2.600 — VL4 — 2.400 — VH5 — 2.250 — VL5 — 2.750 — VH6 — 1.950 — VL6 — 3.050 — VH7 — 1.500 — VL7 — 3.500 — VH8 — 0.500 — VL8 — 4.500 — V – 18 – Unit V CXD3521GG AC, DC Characteristics (VDD1 = 3.3V, VDD2 = 5.0V, Ta = –25 to +75°C) Conditions Min. Typ. Max. Unit — 4.7 5.0 5.3 V Input voltage = 2.5V, During no load — 3.4 6.0 mA VH, VL input current high IIH Input voltage = 4.8V –0.15 — 0.15 µA VH, VL input current low IIL Input voltage = 0.2V –0.15 — 0.15 µA Voltage gain AV Input voltage = 0.2 to 4.8V 0.985 — — V/V Output voltage high VOH ISOURCE = 10mA VDD2 – 1.0 — — V Output voltage low VOL ISINK = 10mA — — GND + 1.0 V COM output voltage high VCOH ISOURCE = 10mA VDD2 – 0.1 — — V COM output voltage low VCOL ISINK = 10mA — — GND + 0.1 V Offset voltage VOFF Rs = 10kΩ — — 20 mV Load regulation ∆VO Input voltage = 0.2 to 4.8V ISOURCE = 10mA ISINK = 10mA — ±5 ±10 mV Output impedance RIMP V0 to V8 — 15 — Ω Settling time 1 ts 1 ts 2 ts 3 ts 4 Measurement circuit 1 — — 10 µs Measurement circuit 1 — — 10 µs Measurement circuit 2 — — 6 µs Measurement circuit 2 — — 6 µs Item Symbol Supply voltage VDD2 Current consumption IDD2 Settling time 2 Settling time 3 Settling time 4 – 19 – CXD3521GG Measurement Circuit Measurement circuit 1 4.8V 0.2V 15Ω VH Measuring point V0 to V8 30nF VL Measurement circuit 2 5.0V 0V Measuring point VCOM 30nF FRP (internal pulse) 50% 50% ts1 ts2 90% Output (V0 to V8) 10% 90% Output (VCOM) 10% ts4 ts3 VRFSTB This is a selector switch for reference voltage driver output on/off. VRFSTB: Low → V0 to V8 and VCOM are GND level. VRFSTB: High → V0 to V8 and VCOM are active. – 20 – CXD3521GG To DC-DC Converter∗1 Application Circuit To ACX704AKM/BKM VDD2 VDD1 VDD1 B22 B32 B12 B02 XR32 XR22 XR12 XR02 XG32 XG22 XG12 XB32 XG02 XB22 XB12 VDD2 XB02 TESTL5 TESTL7 TESTL6 TESTL3 TESTL4 VSS2 TESTL8 TESTL2 V8 TESTL1 V7 VL8 VH8 VCOM A2 A3 B3 C4 D5 A4 C5 B4 B5 B6 D6 A5 C6 A6 D7 C7 B7 A7 D8 C8 B8 A8 D9 C9 B9 A9 D10 B10 A10 D11 C11 C10 TEST A12 B1 VL7 VSS1 B11 B2 VDD2 G02 A11 C1 V4 G12 D12 C2 VH7 G22 C12 C3 V6 G32 B12 D1 V3 R02 E11 D2 VDD2 R12 E12 D3 VSS2 R22 F11 D4 V5 R32 F12 E1 VH2 PCO E9 E2 V1 SLIN E10 E3 VL2 CLR E4 V2 F9 TESTO F10 F1 VL0 VSS1 G9 F2 VH0 PCI G10 F3 V0 Vsync G11 Hsync/DENB G12 R0 H9 G2 OE2 R1 H10 G3 XOE1 R2 H11 G4 OE1 R3 H12 H1 XHST2 G0 H2 HST2 G1 J10 H3 XHST1 G2 J11 H4 HST1 G3 J12 J1 XHCK2 B0 K9 J2 HCK2 B1 K10 J3 XVCK B2 K11 J4 VCK J9 Input F4 VSS2 G1 XOE2 B3 K12 K1 XHCK1 MCK L12 K2 HCK1 VDD1 L11 TESTP R31 R21 R11 R01 G31 G21 G11 G01 B31 B21 B11 B01 VDD1 XR31 XR21 XR11 XR01 XG31 XG21 XG11 XG01 XB31 XB21 XB11 XB01 XENB ENB XVST VST VSS1 VDD1 VDD1 To ACX704AKM/BKM To ACX704AKM/BKM A1 VRFSTB M1 L2 M2 L1 K4 K3 L3 M3 L4 M4 J5 K5 L5 M5 K6 L6 M6 J7 J6 K7 L7 M7 J8 K8 L8 M8 L9 M9 M10 L10 M11 M12 To ACX704AKM/BKM VDD1 ∗1 Connect PCO to DC-DC converter that can control power on/off of the ACX704AKM/BKM. Application circuits shown are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits or for any infringement of third party patent and other right due to same. – 21 – CXD3521GG Package Outline Unit: mm 128PIN TFBGA (PLASTIC) 11.0 S A 0.3 S B 11.0 0.3 x4 0.20 0.2 S 10.6 ± 0.1 S 0.8 A 1.1 1.1 M L K J H G F E D C B A 1.2 MAX 0.1 0.4 ± 0.05 S 0.8 B 1 2 3 4 5 6 7 8 9 10 11 12 128 - φ 0.5 ± 0.05 φ 0.08 M S A B PACKAGE STRUCTURE PACKAGE MATERIAL SONY CODE EIAJ CODE JEDEC CODE TFBGA-128P-061 P-TFBGA128-11x11-0.8 ORGANIC SUBSTRATE TERMINAL TREATMENT TERMINAL MATERIAL SOLDER PACKAGE MASS 0.22g – 22 – Sony Corporation